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#Post#: 70435-------------------------------------------------- |
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Converting a Weed Wacker to be a Model Airplane Engine |
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By: 660magnum Date: March 20, 2016, 4:36 pm |
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WEED WHACKER CONVERSION |
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While this was actually written 12-15 years ago for the old 80's |
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and 90's Homelite weed whackers, the technique could be applied |
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to other brands or even chain saws. I made a few changes in an |
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attempt to update it. |
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THE BASIC REASON |
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Homelite weed trimmers were popular among model airplane and |
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boat enthusiasts. One main attraction was low initial cost. |
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Another was the relatively minor changes truly needed to get one |
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flying. Other reasons get into low fuel cost, lack of attention |
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needed by the engine after setup, etc. A good string trimmer |
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candidate for conversion should have the crankshaft coming out |
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one end of the crankcase and turn in the clockwise direction |
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when standing behind the engine looking across where the |
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propeller will mount. The propeller is usually mounted on the |
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flywheel end of the engine. Some likely candidates are Homelite, |
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McCulloch, Toro, Ryobi, Stihl, Echo, and Weed Eater. Some of |
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these are no longer made, Many of the Weed Eater brand are too |
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small or lack the porting necessary for good power. The Echo, |
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Stihl, & Makita brands are rather pricey. The old style rear |
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carb Ryobi 31cc and its variations used by other companies are |
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often converted. The air box is removed and the engine can use |
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the same hubs as the Homelite. But the carb and muffler are in |
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the rear and this presents a mounting problem. Though some |
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people have used stand offs, some companies make fancy box |
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assemblies for mounting convenience. The old style Ryobi is |
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narrow and easy to put a cowl around and comes with a Pitts |
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style muffler, it is long and creates balance and vibration |
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problems at times. The Homelite met most sport model airplane |
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criteria with less fuss and a low price. |
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In the beginning conversion, lets keep it simple. Get a cheap |
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candidate. You may find one at a garage sale with the cutter |
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head or recoil starter damaged? Most of the Macs have a broken |
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throttle cable. Some, the fuel lines have rotted off. There may |
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be one in a trash can on the side of the road. Look on Craig's |
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list or in the newspaper for sales at your favorite discount |
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store. If you are looking at a used one, make sure it has good |
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compression and feels good when you pull it through. You may |
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could use some parts from one engine assembly on another engine. |
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I once used parts from a bad Homelite that had foreign object |
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damage on a new Homelite 30cc short block to make up a |
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conversion engine. But before I go any farther, you need some |
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experience with small engines. It is best that you have already |
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ruined a few model airplane engines, lawn mowers, or had other |
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hard experience lessons with engines in the past. If you feel |
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chicken, there are people that convert engines for you? |
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Here are a couple companies that offer conversion pieces and or |
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converted engines |
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http://www.carrprecision.com/ |
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http://www.carrprecision.com/ |
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And there are others . . . |
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THE BEGINNING CONVERSION PROCESS OVERVIEW |
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This consists of stripping the string trimmer down to where |
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there is nothing left but the engine. This includes removing the |
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muffler, The ignition system, the fuel system, and the back |
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plate. The reason for this is on the Homelite, there is a large |
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fan shroud that is cast onto the engine block that must be cut |
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away. On a weed whacker the rear cover plate serves mounting |
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purposes as well as sealing the crankcase so it too must be |
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trimmed and modified. |
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These engines are typically assembled with self taping Torx head |
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screws. These are generally in the sizes T-25 through T-27. Some |
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of these Torx head screws also have flat blade screw driver |
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slots. You should take note of the threads on your screws. Some |
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have a triangular cross section that serves to cut or roll |
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threads in the castings. Most of these have Loctite on the |
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threads and you will need to warm them up with a propane torch |
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to release the Loctite. The Torx heads screws are rather soft |
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and I always replace them with Allen hex socket head screws. |
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FLYWHEEL AND PROP HUB |
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First you must remove the flywheel. As mentioned earlier this |
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must be removed so you can cut away or unbolt the fan shroud |
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from the engine crankcase. The flywheel sets on a tapered area |
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of the crankshaft. It is kept from slipping on the crankshaft by |
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a straight key or maybe a half moon (Woodruff) key between the |
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crankshaft and flywheel. Do not loose this key. When you remove |
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the flywheel nut assembly, the flywheel will still not come off |
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the crankshaft. Some flywheels have the key cast into them and |
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the key is not removable. You must use a gear puller or you can |
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use two flat pry bars and a soft hammer which is usually a two |
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man job. At this point you may decide to move along to other |
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areas and come back here later, but I'm going to continue to |
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talk about the flywheel. |
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At his point you need to decide what you are going to do with |
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the flywheel? If you are going to use electronic ignition and |
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make or purchase an new hub from someone, you may just want to |
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set it aside and forget it. If you are going to use the |
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flywheel, it could be used as it is, have the fins faced off on |
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a lathe, break the fins off with pliers and grind the flywheel |
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smooth with a die grinder, or like one fellow, mount the |
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flywheel where it runs true in a drill press and sand off the |
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fins. |
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In our philosophy of keeping it simple, There is really no |
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reason why the flywheel could not be used as is with the fins. |
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The fins cause some drag, weight penalty, and resulting RPM loss |
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but it is not significant. The extra rotating weight will help |
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the idle but will penalize your top RPM slightly. You made need |
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the extra weight to balance a WWI model? However, there are two |
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little spring loaded dogs or pawls that you may want to remove. |
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They were for the recoil starter and are held in place by pins |
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that are pressed into the flywheel. On the Walbro flywheels, the |
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pins are in blind pockets and you cannot drive the pins out |
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directly but can usually catch the edge of one from the side of |
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the flywheel with a punch or chisel and drive them out. On the |
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Phelon brand flywheels, the holes go all the way through. |
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You can turn the fins down on a lathe. Basic machinist |
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technique. The radial run out of the flywheel in a three jaw |
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chuck is not so important but wobble is. Try to get the flywheel |
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seated squarely and firmly in the chuck so it does not wobble or |
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twist. you can only turn the fins down until you touch the |
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highest part of the counter weight or magnet. Do not cut into |
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either area. While the flywheel is still chucked up, you should |
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go in with a cutting tool and spot face the center area of the |
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flywheel where your new prop hub will make contact. Places like |
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Carr Precision or Brillelli can do this for you and balance the |
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flywheel while they are at it. |
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I tried breaking the fins off with pliers and grinding the fins |
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smooth with an air powered die grinder. A Dremel is not big |
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enough. Balancing is mandatory. I used a Dubro prop balancer to |
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check my efforts to balance the flywheel. The Dubro Arbor works |
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fine on the flywheel. You turn one of the cones around with the |
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flat side towards the flywheel to hold it square. The other cone |
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is used to center the flywheel. It will take many trials and you |
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will chase the balance around the flywheel 90 degrees before you |
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are done. Although the Walbro flywheels are originally more in |
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balance than the Phelons, they still show some imbalance even |
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when untouched. |
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You could not bother with the flywheel and use a battery powered |
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CD ignition (RCEXL)? You will need a magnet in the hub. It often |
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works better to have the magnet in an adjustable ring that fits |
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over the prop hub. The companies linked to early on in this post |
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can possibly help you with this. The battery powered ignition |
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offers less weight and bulk but you have to tend to the battery |
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and the extra cost. |
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THE HUB |
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I consider the prop hub to be rather tricky to make yourself. |
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The machining problems materialize when you need to turn the hub |
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around to face the back side. Some people use a collet chuck to |
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hold the hub so the backside face is still square. It is easier |
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to just buy a hub from a vendor? The longer your hub, the more |
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inaccurate it gets. There are considerations needed for the |
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threads and their length on the engine and for your prop |
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retainer screw. There are trade offs and compromises. Typical |
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thread sizes are 5/16"-24, 3/8-24 and 8mm. A hub with a magnet |
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is another consideration. |
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A SPECIFIC APPLICATION |
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The stock Homelite's horsepower peak is at 6700 rpm. Therefore |
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you need to plan on using a 16-10 or 18-8 prop depending on the |
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weight and size of your plane. The domestic props are noticeably |
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out of balance so I recommend a Dubro balancer to balance your |
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props. The magnetic centered balancer is not strong enough to |
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hold a big prop. The cheapest Homelite had no clutch and a short |
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shaft. The threads are 5/16"-24 and it sticks out beyond the |
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flywheel about 7/8". Your prop hub will have 5/16"-24 threads |
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all the way through it. To meet the AMA safety rules, you will |
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need to use a 5/16" stud and a Higeley 1" diameter safety nut. |
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It will almost take a 3" spinner to look right on a 18 X 8 prop? |
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You will need to trim the prop openings in the spinner with a |
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half round file to fit the prop. |
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The reason I mentioned a cheap Homelite above is that the more |
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expensive Homelites have a clutch in front of the flywheel. The |
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shaft on these engines is 3/8"-24 and sticks out some 3" beyond |
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the flywheel with the end tapped 10-24. The hub in this case |
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normally does not have threads and the prop and hub are retained |
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with a single 3/8" nut. The shaft may need the very end sawn off |
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and sometimes you have to run a 3/8"-24 die on the shaft to make |
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the threads go halfway into the prop. If you are going to |
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purchase a hub, you need to be aware of which engine you have so |
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you can get the correct hub. By theory, you could build a |
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shorter engine with a long shaft that you can with a short shaft |
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if you think about how the hubs are made? |
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IGNITION COILS |
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There are two brands of ignition coils on Homelites and they are |
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the Walbro and the Phelon. The Walbro gives a nice spark but the |
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Phelon, you better wait until after dark to look for a spark. |
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Either will work on your engine but the Walbro is better. There |
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are not too many people quick enough to hand start a magneto |
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ignition engine so you best plan on an electric starter. The |
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cheapest Hobbico will not start a whacker engine. |
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You may feel the need to mount a kill switch on your engine. On |
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the coil next to the plug wire is a metal tab. If this tab is |
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shorted to the engine block the ignition will not work. A good |
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quality SPST slide switch is required. Keep the wires as short |
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as possible as they can carry RF. Keep in mind the vibration and |
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select your parts accordingly. |
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Clearance between the coil and the flywheel is important. I set |
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the coil on the magnet with a business card between them while |
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bolting down to set the clearance. |
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MUFFLER |
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The latter Homelite mufflers were a large streamlined affair |
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That works well but is heavy and may hit the fuselage on some |
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planes. The old trimmer from a few years back and the latter |
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commercial trimmers had a little square box muffler that was |
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inexpensive to purchase new # A-04837. This muffler comes apart |
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when removed from the engine and is easily modified. Gut it, |
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block the original hole out the lower rear. Braze in a couple |
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1/2" pipes out the spark plug side of the muffler. If the |
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muffler is plated, you will need to brush off the plating before |
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the braze will stick. On all the factory mufflers there is a |
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little punched hole near the exhaust port that is part of an |
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exhaust gas recirculation scheme. Peen this hole flat and braze |
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it shut. You can also get nice after market mufflers and headers |
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for the Homelite as the Small G23/G26 Zenoah engines have a |
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34.29mm/1.350" spacing and it only takes a little rat tail file |
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messaging to make these mufflers fit the Homelite which has a |
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1.5" bolt spacing. |
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CARBURETOR AND HEAT DAM |
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The stock carbs on the Homelite weed whackers has a 5/16" (20) |
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venturi. They can be either Zama or Walbro. The engine will |
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perform with the original carb if it has both a high and low |
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speed needle. The mixture needles are mandatory on a model |
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engine as the conditions are drastically different from weed |
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whacker duty. I'm refering to the venturi size and not the size |
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of the carb where it fits onto the engine. The engine perform |
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much better with a 3/8" (24) carb but a 7/16" (28) carb is about |
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the biggest you can use without high rpm mods to the engine |
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itself. The small 33cc chain saws usually have the 7/16" carbs. |
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You can buy them on Flea Bay cheaper than new ones. You may have |
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to cross reference the numbers? I bought new Walbro WA-167A |
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carbs with the primer bulb and no choke. This Walbro has a |
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smaller throat where it fastens to the insulator or heat dam on |
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the engine which makes it an ideal choice. The insulator or heat |
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dam works better if enlarged for the bigger carb. |
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http://images.rcuniverse.com/gallery/photos/23804/lg-14766.jpg |
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A note here about carburetors. A Zama runs as good size for size |
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as a Walbro however, due to a lack of documentation on Zama |
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Carburetors, and the high cost of repair parts for Zama |
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Carburetors compared with Walbro's, don't go out and buy a Zama. |
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If you already have a proper size Zama and it runs good by all |
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means use it. If something goes bad about the Zama or you need |
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another carburetor, get a Walbro. |
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http://images.rcuniverse.com/gallery/photos/153113/lg-139287.jpg |
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Most Homelites mount the carb at quite an angle so you will need |
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to run the throttle linkage through a bell crank or use the heat |
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dam spacer from an electric start Homelite trimmer (Homelite # |
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06445). This straight pull mount will let you run the linkage |
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directly to the throttle arm. This spacer also serves as a heat |
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dam as well as the carb adapter. Do not be tempted to make one |
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from aluminum for as the engine get warm, it will not restart |
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until it cools off. |
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It may be necessary to make a few changes to your carb. On the |
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throttle shaft there is a return spring. Some people leave it |
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alone and others do not like the servo having to pull against |
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the spring. So these people unhook the tang of the spring from |
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the hole in the throttle arm. Do not take the spring off the |
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throttle shaft. The spring serves as a spacer to position the |
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throttle arm in the center of the throttle bore. To remove the |
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spring, you have to remove the butterfly and the retaining screw |
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is likely to vibrate out and go through the engine once it is |
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tampered with. With the spring removed completely, the butterfly |
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wants to hang up in the carb. |
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You want to use a Nyrod type push rod so RF is not carried back |
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into the radio. Remove the idle stop screw or at least back it |
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out of the way so you can close the throttle completely to shut |
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the engine down like on the old glow engines. Set up the servo |
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travel so when you run the trim all the way down or hit the idle |
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cut off button, the servo will close the throttle and shut the |
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engine off. Set the linkage up so with the transmitter throttle |
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trim in the mid position, the engine idles perfectly. |
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I must caution here about the little hole in the part of the |
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carburetor that bolts to the engine. The Walbro and Zama carbs |
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are pumper carbs. They utilize the pulsating pressures of the |
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engine crankcase to operate a diaphragm pump inside the carb. On |
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the engine side of the carb there is a little hole adjacent to |
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the bigger throttle bore. There is a corresponding little hole |
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on the heat dam of carburetor mount adapter on the engine. On |
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the the engine you can trace this little hole to the crankcase. |
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The carb will run equally well in any position but that little |
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hole must connect with the crankcase one way or the other even |
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if it has to be run though an external line. If you turn the |
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carb over, this little hole must still go from the carb to the |
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crankcase. |
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The mixture adjustment screws were originally between the carb |
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and the prop. If you turn the carb over, they will be on the |
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bottom rear. It doesn't make much difference as you will have to |
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shut the engine down to adjust the screws anyway for you will |
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find it impossible to hold a screw driver in the slot while the |
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engine is running due to vibration. These mixture screws will |
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often have a limiter cap on them but the caps must be removed |
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for your operation on a model airplane or boat is very different |
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from weed whacker operation with all the air currents swirling |
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around the engine. These mixture screws will need to be |
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readjusted as you start the engine for the model application. |
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While flying, the air pressures will again be different and you |
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will likely need to readjust them again to have the engine |
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running properly in flight. |
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In flight, the air flowing past the carburetor inlet will blow |
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gas from the carb back onto your plane. There are a variety of |
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so called velocity stack extensions that you can fasten onto the |
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carb to prevent the fuel from blowing onto the plane. Some of |
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these are straight pipes with an angle cut on the end and others |
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are trumpet shaped and flared out larger on the end. Some |
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extensions are aluminum and some are plastic. Get one that looks |
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pretty and see if you can get it to work on your engine. |
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Some carbs do not have chokes directly on the carb. The choke |
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may have been part of the weed whacker air filter? On a open |
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engine installation, you do not necessarily need a choke as you |
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can use your finger. Cowled installations are another mater. You |
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may need a choke. |
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#Post#: 70436-------------------------------------------------- |
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Re: Converting a Weed Wacker to be a Model Airplane Engine |
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By: 660magnum Date: March 20, 2016, 4:36 pm |
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--------------------------------------------------------- |
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BACKPLATE AND ENGINE MOUNT |
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Cut and file the extra material from the backplate so there is |
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noting left but just the part that covers the back of the |
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crankcase. You may want to take a piece of coarse emory paper |
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and sand the rear outside of the back plate level as you are |
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going to cover it with the engine mount plate. You could also |
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chuck it up in a lathe and face it off. If you use an electric |
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sander, be careful that you do not melt the plastic. On the |
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plastic back plates you need to make the flange evenly 1/8" all |
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around. Measure carefully on all four corners as you take it |
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down so the plate is still flat. On the metal back plates, you |
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will need to take the lip off the edges of the flange. The |
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aluminum engine mount assist the cover in sealing the rear of |
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the crankcase. |
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The mount can be aluminum plate. It should be T6 temper but can |
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be 2024, 6061, 7075 or whatever or you can even use 1/4 birch or |
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maple plywood. The plate needs to be 3 1/2" wide and 3" high. |
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The aluminum mount can have a 1 3/4" hole in the center to make |
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it way less. The would mount can have a 1" hole. The top of the |
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mount should be just under the tab that sticks out from the |
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cylinder. You will need eight 3/16" holes in the plate. Four to |
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fasten the plate to the engine and four to fasten the plate to |
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the firewall of the plane. Use a gasket or the backplate to lay |
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out the engine holes. These holes will be countersunk for flat |
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head screws. The Homelites I own are 10-24 on the rear of the |
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crankcase. The two bottom holes for fastening to the firewall |
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should be about .300" below the and have a 2" center to center |
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vertical distance and a 3" center to center horizontal distance. |
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The top corners should be a 1/2" radius and the bottom corners a |
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1/4" radius. You can scallop the sides between the mounting |
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holes. With an aluminum mounting plate, you can use 10-24 X 3/4" |
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flat head Allen bolts and with the plywood plate you best use |
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10-24 X 1" flathead screws. You can buy these already made with |
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the screws from the links in the beginning of the post. |
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NECESSARY MODIFICATIONS TO THE HOMELITE CYLINDER HEAD |
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Almost all the Homelite cylinders have an exhaust recirculation |
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hole just above the exhaust port. This should be plugged. But be |
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sure you do not do anything to penetrate into the cylinder |
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lining. I used a 8-32 shortest set screw. The hole is just the |
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right size for the 8-32 tap. Stick something lightly into the |
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hole to see how deep it is. Mark your tap with tap slightly |
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short of this depth. Tap into the hole but stop at your tape |
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mark. Remove the tap and cut it off some and remark the depth on |
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the tap. Retap the hole with the cut-off tap. Do this again to |
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get some decent threads into the hole. Screw the shortest set |
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screw into the hole so it is flush with the cylinder outside. |
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On some cylinders there is a compression release hole above the |
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intake. If there is one on your engine it is easily spotted. |
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This hole is 1/8" pipe and you can use a pipe plug. It does not |
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have to be flush. |
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NECESSARY MODIFICATIONS TO THE CRANKCASE. |
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The only thing you need to do to the crankcase is to cut away |
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the fan shroud. You want to leave the upper part in place to |
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hold the coil if you are using the magneto. You will need to |
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have the flywheel, muffler, and carburetor removed. The |
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backplate must be in place and the exhaust and intake taped shut |
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to keep metal shavings out. I took a short piece of 2 X 4 and in |
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the center drilled a 5/16" hole all the way through. I counter |
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bored this hole 3/8" diameter about 1/2" deep to clear the nose |
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of the crankshaft. I then stuck the crank down into the hole and |
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this held the engine so I could rough saw off the air box in a |
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metal band saw. I finished it up with a coarse half round file. |
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Do not cut into the crankcase itself and leave generous support |
|
for the coil. Dress up the crankcase with a file and carry the |
|
lines forward from the rear to the nose of the crankcase. If you |
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have a long shaft engine, you will have to take a more manual |
|
approach. |
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It must be mentioned that removing the crankshaft from the |
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crankcase can be serious business. If you have an arbor press |
|
and have done this work before then go for it but if not, try |
|
your technique on a junk engine first. No beating with a hammer. |
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RUNNING |
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I would bench run the engine before mounting it on a plane. This |
|
way you work out any problems without wear and tear on your |
|
airplane. With magneto ignition it is unlikely that you will be |
|
able to start the engine by hand flipping. A regular cheap |
|
starter will not turn a Homelite over. You will need the |
|
Tower/Hobbico 120 starter at least. A battery type ignition |
|
engine can be hand started after you get it set up. |
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You need to get fuel up to the carb. Once the carb is wet |
|
inside, you can rock the prop back and forth from compression to |
|
compression to work the pump in the carb. To choke the carb with |
|
your finger will draw fuel up into the carb. With an electric |
|
starter things are generally pretty easy. Due to the diameter of |
|
the prop, don't be reaching over it. |
|
With a RCEXL type ignition, the standard procedure has been to |
|
have the choke on and flip until it sputters, take the choke of |
|
and three or four flips later it is running. Without a choke, |
|
things will be different? |
|
I like to set the mixture just into the verge of four cycling or |
|
sputtering for the first tank to flush the junk out of the |
|
engine. After that I try to get the needles set. |
|
The Homelite is generally used on a 11 to 14 lb plane |
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***************************************************** |
