It has been quite a while since I wrote the original article, "Teaching a Weed Wacker
How to Fly." It was published in the August 1995 issue of this magazine. A lot has
happened since then. Ryobi no longer uses the 28cc engine. In its place we have a 31cc
engine (same weight) that converts almost as described in the August 1995 article.
However, the Ryobi Model 720r does have some modification differences.
One feature of the 720r is that it sports a centrifugal clutch on the shaft. You now
have a whole bunch of new parts to throw away. Your flywheel may have fewer fins, but it
modifies almost in the same way as originally described in the first article. The
"TILLOTSON" carburetor is slightly different. Its modification will be the same
as the "WALBRO." However, you may find either one on your engine. We will not be
modifying the muffler on this engine. Our conversion suppliers are offering new mufflers.
That makes life a lot easier. Some readers found the original muffler conversion somewhat
cumbersome. You can expect a slight increase in RPM with the purchased muffler. We also
found that using the primer bulb that comes with the Ryobi was not necessary for a flying
engine. The engine will start just as easily when it's cranked and primed in the usual
manner.
Most of the conversion information is usually brought to my attention by the fly guys I
hang out with. Leonard "CROW" Rylander, our retired prototype machinist, is one
of them. I told you about him in the original article. Another (artist) machinist, Mort
Katz, has modified some of our flywheels, made us some engine mounts and other necessary
parts. Mort had his own shop, sold it when he retired, but still has access to the shop
whenever he needs it. I'm also fortunate to have people like George Romain and Bill
Koster, who have modified the Ryobi as you would, without any special tools. They report
on problems they encounter during their modifications. I don't even start a report like
this until they're all satisfied and as happy as clams.
I showed Leonard the crankcase of an old burned out engine that our local lawnmower
repair shop supplied and he immediately studied it for conversion. We noted a longer drive
shaft on the end of the 31cc engine. It has a 3/8-24 thread on it. It also has an 8-32
tapped hole in the end of the shaft. The hardened shaft shouldn't be modified in any way,
we'll use it as is. In the assembly of the prop hub, prop, washer and spinner, the prop
does not end up in the same place as the 700r model. If you intend to use the new engine
to replace the old model 700r, you will have a fitting problem with your old cowl. You may
want to shim the modified engine to match the old position or use shock mounts.
After a short discussion, Leonard had an engine converted and running. Not only that,
but he has been souping up the engine so that it turns 6300 RPM with an 18-6 prop. The
factory rating for the engine with no load is 7000 RPM. I'll explain about that later. By
the way, our lawnmower shop has been a great source of information on these engines, oil
and fuel mix ratios. Check with yours.
Some other things have happened since I stirred up the pot on weed whackers. Jag
Engines, B&B Specialties, and Paragon Aeronautics are now supplying parts for the
conversions. Roughly about a year and a half passed between the writing of the original
article and its publication. Nobody's fault, that's just the way it is. Some parts were no
longer available from the sources mentioned. THIS IS NO LONGER TRUE!
B&B Specialties can supply you with all the parts you'll need, including a new cast
muffler and engine mount of their own design. It was interesting that B&B's conversion
parts and the ones we came up with in Leonard's shop were surprisingly similar. This is
always a good sign. It shows we're all thinking the same way. The B&B supplied parts
will be the ones I will be using for the modification of the Model 720r.
When you modified the older 700r, you may have called Jag Ltd. for parts and found that
they were no longer available; they have since decided to remanufacture under Jag Engines.
They will also now be able to supply all the necessary parts to complete the conversion of
the 720r, including a new muffler for around $56.00. Jag Engines will also sell you a
completely modified engine, so you don't have to do it yourself. But think of all the fun
you'll miss. We now have at least three sources of supply for conversion parts. The
difference between engine mounts is that Jag's mount is an aluminum casting and the
Bennett mount is a 3/16" thick, formed aluminum sheet metal part. The Bennett mount
doesn't require the carburetor shim that is necessary with the Jag mount. The Bennett
shaft adapter has two set screws as a safety feature, so if you should lose the prop nut
you don't lose the rest of the assembly, including the flywheel. Bennett's muffler is an
aluminum casting. Jag's muffler is made of steel. They also have a custom aluminum muffler
and it can be rotated 360 degrees. Jag Engines web site can be reached at:
jagengines.com.
I received a lot of
mail from readers after the 700r conversion publication, and answered all but one. Most of
you had concerns about modifying the muffler. You don't have to do that anymore. Some had
problems with the primer bulb. We found that you don't have to use it, the engine will
prime itself just fine. The bulb is nice feature but for our purposes it is not necessary.
If you elect not to use the bulb, be sure to seal the primer intake on the carburetor.
Some asked about the choice of this engine. The choice was a matter of cost, weight and
the thin profile of the engine after conversion. Speaking of cost, we have an outfit
called" Harbor Freight Tools" which had latched on to a bunch of factory
refurbished 720r models and they put them on sale for... are you ready for this?...
$45.97. Now we can't beat that for starters. Some of us bought as many as the old
pocketbook could bear. Heck, four of them for less than $200 is not too bad.
Now to the modification. I will have to be repetitive on some of this due to the
similar nature of the modifications and to accommodate those who have not seen the
original article. Refer to the parts list that comes with the Ryobi 720r. The following is
a list of parts that you'll keep:
| STUFF TO KEEP | ||
|---|---|---|
| ITEM | PART NUMBER | DESCRIPTION |
| 3 | 180351 | CARBURETOR MOUNTING SCREW ASS'Y |
| 4 | 180352 | WAVY WASHER |
| 5 | 180353 | CHOKE LEVER AND PLATE ASS'Y |
| 6 | 147572 | CARBURETOR ASS'Y |
| 7 | 682048 WALBRO | THROTTLE ADJUST ASS'Y |
| 7 | 147640 TILLOTSON | " " " |
| 8 | 610675 | CARBURETOR GASKET |
| 10-11-13 | 180354 | CARBURETOR MOUNT ASS'Y |
| 12 | 180022 | POWER SHAFT ASS'Y |
| 13 | 612115 | CARBURETOR GASKET ASS'Y |
| 14 | 147015 | CRANK CASE |
| 15 | 682041 | INNER BEARING ASS'Y |
| 16 | 610309 | SEAL |
| 17 | 610308 | OUTER SEAL ASS'Y |
| 18 | 682040 | SNAP RING ASS'Y |
| 27 | 153624 | FLYWHEEL ASS'Y |
| 44 | 683390 | MODULE ASS'Y |
| 49 | 180063 | CYLINDER ASS'Y |
| 50 | 147012 | PISTON AND ROD ASS'Y |
| 51 | 145564 | CYLINDER GASKET (10 PACK) |
ITEMS YOU DON'T DISASSEMBLE
7, 8, 12, 14, 15, 16, 17, 18, 44, 49, 50, 51
ITEMS YOU'LL MODIFY
5, 6, 7, 10
| ITEMS YOU'LL PURCHASE | |
|---|---|
|
|
| 1a. Non-Smoke Muffler or 1b. Smoke Muffler |
@ $25.95 @ $30.95 (your choice) |
| 2. Engine Mount | @ $29.95 |
| 3. Prop Hub Ass'y complete | @ $21.50 |
| 4. RDJ8J Resistor Spark Plug | @ $2.50 |
The engine mount kit has a shim washer to level the mount to the plastic carburetor
housing. One boss is lower than the other three. This kit also contains all the necessary
Allen head screws for mounting.
The muffler kit comes with the two screws needed for mounting. It would be advisable to
place an exhaust gasket between the muffler and the engine to prevent leakage and to avoid
metal to metal contact. You can get the material at your local auto supply store. If you
are real careful, you can salvage enough material from the old gasket that was on the
engine.
The prop hub kit contains a rear hub with set screws, a prop washer and a prop nut. I
suggest you get a package of 3/8-24 elastic stop nuts from your local hardware store.
These nuts have a nylon insert built in that will not allow the nut to spin off even if it
should loosen in flight. A good safety precaution for this engine and any 4 stroke engines
that sometimes backfire and spin off the entire front end of the engine.
When you start to disassemble the weed whacker, all will be well until you get past the
removal of the centrifugal clutch. It starts with a threaded nut that holds the clutch
stuff on the shaft together. If it doesn't unscrew easily, wrap the engine flywheel with a
towel and snug it into a vice. Then get a 14 inch monkey wrench on the nut and just lean
on it. The next obstacle you might run into is the flywheel assembly. It might be stuck
and hard to remove from its tapered shaft. If so, soak the shaft area with acetone. Put a
short 8-32 screw all the way in using the tapped hole in the shaft. Now gently tap on the
head of the screw. If it continues to be stuck, use a broad bladed screwdriver and very
gently pressure it off.
After you have removed the flywheel, get out your prop balancer. We have found another
use for it. Place the flywheel onto the balancer and note that the flywheel is slightly
off balance. With a marker pen, mark the bottom of the swing. This mark will be used later
as a reference. The flywheel is made off balance in order to compensate for the mass of
the engine's other moving parts. You'll want to regain that smoothness later when you run
the engine. After you remove the clutch ratchet arms, springs, and drive out the studs,
have the flywheel fins turned off until the name on the casting goes away. After that,
remove about .005" or so to face off the center hub. If you put the flywheel back
onto the balancer, you'll find that it will be in pretty good balance. Now using the pen
mark as a guide, grind off enough material from the opposite side to regain the original
unbalanced condition.
You now should be ready to modify Items 6 & 7, the carburetor assembly and the
throttle assembly. Do not remove the throttle lever return spring. Using a small diagonal
cutter, cut off both legs of the spring, leaving the coils. The coils will act as a light
spring washer to take up the play in the butterfly shaft. Now, remove and discard the
throttle idle stop screw and spring. Its stop function will be controlled by the servo.
Disassemble the carburetor, setting all the parts aside in the order you remove them and
put them away so that they will stay clean. It's best to put your finger over any of the
"E" clips when you remove them as they have a habit of flying to never-never
land if you don't. You might even try to disassemble the "E" ring in a plastic
bag, and let it fly-- where can it go? Sometimes I think the "E" stands for
"escape".
The brass spray bar that can be seen when looking into the venturi should not be
disturbed. It's locked in with a pin that you can't remove. The venturi must be opened up
to at least .400 of an inch while avoiding grinding off the spray bar. You can use a small
metal burring tool in a Dremel to do this. Then smooth off the venturi hole using a #11
X-Acto blade. There is no need to polish the hole any further. The smooth shaving of the
blade is good enough.
When you disassemble the carburetor, remove and discard the fine mesh filter screen
(about 5/16" dia.), you can use an in-line external filter instead. You'll also want
to remove the slop from the throttle lever assembly (Item #7). That's the brass piece with
an "E" clip. Make a small .015" thick washer out of Teflon or Mylar to take
up the slop in the throttle assembly. A plastic milk bottle will also make hundreds of
nice washers using a couple of hole punches. Open up the cross hole in the brass throttle
piece to .078" dia. and replace the screw with a 4-40 X 1/8" long Allen set
screw.
The next order of business is to cap off the brass primer fuel intake tube that is next
to the "LOW" end adjustment screw. The easiest way to do this is to tap the
brass fuel tube with a 2-56 tap as far as you can go. Then coat a 2-56 X 1/4" long
screw with nail polish and screw it into the tube. When the screw is all the way down,
coat the head and let it dry. Now, reassemble the carburetor and wrap it up to keep it
clean.
The modification of the black plastic Carburetor Mount Assembly, Items #10 and 11, is
accomplished by following the contour of the gasket mount with a scroll saw. Cut out and
save the center portion of the plastic mount. The assembly now consists of the mount and
the (Item #11) Reed Assembly. Clean off any flash from the cutting.
In order to modify the Choke Lever and Plate Assembly (Item #5), just mark off the
footprint (shape) of the carburetor. Grind off all the excess material leaving the
mounting holes and the detent area on the plate. Now remove the bent end on the Choke
Lever so that the lever is now flat except for the detent. Round off the end and drill a
7/64" dia. hole in the end of the lever. You can fashion a 2-56 threaded wire with a
"Z" bend at the end that engages the lever, and the threaded end of the choke
lever will protrude through a hole in your cowl. Now make a hard wooden knob that has a
2-56 "T" nut imbedded in it and screw it onto the end of the rod. Shape and
paint the thing as you please.
This concludes the modifications. Reassemble the engine, that now looks like it wants
to fly. Set up the low and high ends as described in the manufacture's instructions. This
is a good place to start. Mount the engine in a test stand, put a prop on it and run it.
Now, you can make the finite adjustments to get the maximum RPM, and the smoothest low
RPM.
Pushing the Envelope Above and Beyond In order to increase the compression on
the Ryobi, we have removed .025" from the head assembly. We also installed a
carburetor with a larger venturi (1/2"). The footprint for mounting was the same as
the original carburetor. There was no appreciable difference between the larger venturi
and the one that we modified. In fact, the adjustment on the low end is very critical with
the 1/2" venturi. The 1/2" diameter carburetor came from our local lawn mower
shop. We eventually went back to the modified carburetor.
George recommended that you run a new weed whacker for about 4 hours before you modify
it. Then you do not have to break it in, in the plane. Sound advice. My spouse thinks I've
gone nuts running the machine in non-existent grass. She asks, "Didn't the gardeners
do it?" However, if you should buy a refurbished model, check and see if the engine
has been run. Just remove the plug and look at the electrodes. Then of course, if you
remove the piston, you'll see that the head has a layer of carbon on it.
The choke and lever assembly required modification to accommodate the 1/2"
diameter carburetor. We had to enlarge the hole in the plate to 1/2 inches and add a brass
circle to the lever about 3/4 of an inch. We silver soldered the two together. However, by
using the original modified carburetor, you don't have to enlarge the choke system at all.
John Curran is a half owner of a tools rental yard. He has repaired more engines than I
have ever seen in my lifetime. George and John have gone ahead and converted one of the
engines to accept a C&H ignition system. They are using the C&H electronics and
sensor, and they have designed their own Delrin ring assembly. The ring is mounted onto
the four front tapped bosses on the engine. The C&H sensor is permanently placed at
the 28° recommended position. They are using the modified flywheel and its magnet to
excite the ignition. George's test engine (which was an old worn out dog) with a 18/10-6
prop, ran up to 6300 RPM. With a 16-8 prop, he ran up to 8000 RPM. The next step was to
fly the ignition engine. The 17 pound plane performed flawlessly until somehow (and we're
still trying to figure this out) the easy hinges sheared off of the elevator and crashed
the plane. No one never even heard of such a thing happening. The test engine was wrecked.
George took all the spare Ryobi parts he could muster and quickly made up a new engine.
This one runs more reliably than the old one. He built a new plane, and has been flying it
ever since.
Leonard has been experimenting with a pizo-electric ignition system using a crystal
from a Bar-B-Que lighter-- no coil, no battery. We have no information on this as yet. We
suspect, however, that the crystal may eventually break down at high RPM.
Leonard suggested using Drywall & Sanding Screen, medium grade 120 for non-slip
washers between the prop and prop hub. Cut out your own, they'll last forever. The
material is available at any hardware supply store, where the sandpaper is kept.
| Tests on George Romain's engine using 87 octane gas with a 30:1 oil mix: | |||
|---|---|---|---|
| 1. 18X6/10 | 6200 RPM | 9.0 lb. | static pull |
| 2. 18X8/14 | 5200 RPM | 8.5 lb. | static pull |
| 3. 16X6/10 | 7200 RPM | 8.5 lb. | static pull |
The above tests used a .400" venturi carburetor with the standard muffler as
converted in the original article.
Second test was with a .400" venturi carburetor with the Bennett muffler.
| 1. 16X6/10 | 7250 RPM | 9.00 lb. static pull |
| 2. 18X6/10 | 6250 RPM | 9.75 lb. static pull |
No further tests were made after the 18X6/10 test. The next run of testing will be with
high octane gas (92) with an oil mix of 50:1.
Only RPM readings will be taken and tests will include carburetor adjustments whenever
deemed necessary to gain the highest RPM which relates directly to the static pull. As you
know, the static pull tests give no indication as to how the prop dumps torque in the air.
Only flying the model will confirm performance. We also saw no difference in performance
with the modified original carburetor. The higher octane fuel does make for a smoother
running engine. It seems that the higher octane gives the piston a more even push. The
lower 87 octane, although perfectly usable, delivers more of a "bang" to the
piston head. Most of us are using the higher octane mix. It seems to run much smoother.
The extra couple of pennies for gasoline is still more economical than glow fuel. The
latest input is a special prop that put the aircraft's performance right over the edge
with a gain of 200 RPM. It's a MENZ, 18-10 ULTRA and it is available through Cactus
Aircraft, 10380 E. Heritage, Tucson, AZ 85730; phone/fax (520)771-0087.
I would like to publicly thank my daughter, Veronica, for helping me set up a web
page that contains the original article " Teaching a Weed Wacker How to Fly". We
have set this up for your convenience, it's been a long time since its publication. You
can download the text and the pictures from the web page.
My E-mail address is: joeg2@juno.com
Feel free to avail yourself of the information previously published and write to me at the
E-mail address and I will get any other information for you, if I can.
For those of you that can't beg or cajole access to the web site, I would advise that you
try to get a back copy of the August 1995 issue from RCM magazine, the information on the
original conversion will be of value. Those of you who will be using snail mail can get in
touch with me through RCM and they will forward your mail to me.
OK that's about it. Don't be afraid to do the conversion. If we can do it so can you, and
you'll have a great engine at great price. Good luck and happy flying.
-Joe Guzzardi
And here are photos to help you with the conversion.
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