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RUNNING-IN ("Breaking-in")

ADJUSTMENT

CARE AND MAINTENANCE

Please pay attention to the matters described 

below to ensure that your engine serves you well 

in regard to performance, reliability and long life.

As previously mentioned, it is vitally important to 

avoid operating the engine in conditions where dust, 

disturbed by the propeller, may be deposited on the 

engine and enter its working parts.

Remember to keep your fuel container closed to 

prevent foreign matter from contaminating the fuel.

Install a fuel filter to prevent foreign matter in the fuel 

container from entering the fuel tank.  O.S. Super 

Filters (L) and (S) are available as optional extras.
Install an in-line fuel filter between the tank and 

carburetor to prevent foreign matter in the tank from 

entering the carburetor.

If these precautions are neglected, restriction of fuel 

flow may cause the engine to cut out, or the fuel/air 

mixture to become too lean causing the engine to 

overheat.

Clean these filters periodically.

The use of modern high-performance alcohol based 

model engine fuels, while promoting cooler running, 

improved anti-detonation combustion and increased 

power, have the disadvantage of causing corrosion 

due to the acid by-products of combustion. 

The use of nitromethane in the fuel can also 

contribute to the problem.
Do not close the needle-valve and mixture control 

valve too far as this will cause a lean setting and 

over heating of the engine. This can, in turn, create 

nitromethane oxide leading to internal rusting of the 

engine. Always adjust the needlevalve slightly on the 

rich side of peak rpm.
Do not leave unused fuel in the engine at the 

conclusion of a day’s flying. Accepted practice is to 

cut off the fuel supply while the engine is still running 

at full throttle, then expel as much fuel residue as 

possible by turning the engine over 5-10 seconds 

with the electric starter. 

Finally, inject some after-run oil through the glowplug 

hole and turn the engine over several times by hand.

Stopping the engine

Fully pull down the throttle trim on the transmitter.

Starting

Preparation of starting

7.

8.

9.

In case the engine does not stop.

Hold the rotor head, and pinch the fuel line to stop the 

fuel supply. If it still does not stop, pull off the fuel line 

from the carburetor. It is necessary to readjust the 

throttle linkage so that the carburetor rotor is fully 

closed when the throttle stick and throttle trim on the 

transmitter are fully pulled Down.

NOTE:

If the throttle response is poor or the engine stops 

due to a temporarily over-rich mixture immediately 

after the engine is started, pinch the fuel line for 

one or two seconds until the engine r.p.m. 

increase and the engine runs steadily. 

Please observe the following before beginning to 

make any adjustment. 

Medium-Speed Needle Valve.

Turn approximately 30 degrees (3 to 4 clicks) at a time.

ADJUSTMENT PROCEDURE

This condition may also be initiated by an excessively 

prolonged warming-up period. lf, on the other hand, 

the mixture is too Iean, this wiIl be indicated by a 

marked lack of exhaust smoke and a tendency for the 

engine to cut out when the throttle is opened. ln this 

case, turn the Mixture Control Screw counter-clockwise 

5 degrees to enrich the mixture.

Throttle Opening

Fully Closed

1/3

2/3

Fully Open

Fuel Flow

Maximum

Minimum

Adjustment range of Idle Mixture

Control Screw

Adjustment range of Medium

Speed Needle Valve

Needle Valve too 

far open

Needle Valve too 

far closed

High Speed Needle 

Valve Setting varies

according to the curve.

SUBSEQUENT READJUSTMENTS

CARBURETOR CLEANLINESS

Remove this with 

an 8mm wrench

Dirt and foreign matter

mostly accumulate here

6. Priming

5. Inserting the starter shaft

Insert the starting shaft into the shaft

cup securely.

Without energizing the glowplug, 

open the throttle a little from the idle 

position. Turn the engine over using 

the starter until the fuel is seen to 

reach the carburetor.

Connect the battery to the glowplug and start the 

engine by applying the starter. When started, switch 

off the starter and withdraw the starting shaft after 

making sure the rotation of the starter shaft stops.

Hold the rotor head by hand so that 

rotor cannot rotate when the engine 

is Started. Also, steady the model 

with a foot on the landing gear skid.

Make sure that the transmitter 

throttle stick is at the fully closed 

position and the throttle trim at center 

position, and make sure that idle-up 

switch on the transmitter is off. 

All internal-combustion engines benefit, to some 

degree, from extra care when they are run for the first 

few times known as running-in or breaking-in. 
This allows the working parts to mate together under 

load at operating temperature.
However, because O.S. engines are made with the aid 

of the finest modern precision machinely and from the 

best and most suitable materrials, only a very short 

and simple running-in procedure is required and can 

be carried out with the engine installed in the model.
For the first few flights with a new engine i.e. while the 

engine is being run-in set the needle-valve for a 

slightly rich mixture not excessively rich as this may 

result in poor throttle response and cause the engine 

to stop.
About one half turn open from the nomal setting will 

usually suffice.

High-Speed Needle Valve.

Turn this approximately 30 degrees (3 to 4 clicks) at 

a time, when making initial adjustments; then in 

steps of approximately 15 degrees (1 to 2 clicks) 

when making final adjustments. 

Idle Mixture Control Screw.

Turn approximately 5 degrees at a time. It turns 

approximately 90 degrees both sides from the 

center. Turn left to enrich the idle mixture and turn 

right to lean the idle mixture.

The general course of adjustment procedure is 

shown in the ADJUSTING CHART and is correct 

for a fuel containing 20% lubricant and 15-30% 

nitromethane.
Bear in mind that fuels containing relatively large 

percentages of power-boosting nitromethane operate 

at richer mixture settings than are needed for mild 

fuels and will, therefore, require the High-Speed 

Needle Valve to be readjusted accordingly. The type 

and percentage of lubricant used is also a factor here, 

as noted later in these instructions.
This carburetor is not equipped with a throttle stop 

screw. Instead, idle speed is adjusted by means of 

the throttle trim lever on the transmitter.

As a safety measure, first check the transmitter 

controls, including the throttle stick and trim lever 

positions, and hold the main rotor securely before 

starting the engine.

Warm the engine by allowing it to idle for about 30 

seconds. If the engine stops, advance the throttle 

trim lever slightly to increase the idle rpm. 

Then open the throttle sufficiently to 'float' the model 

above the ground. lf, at this time, the engine is slow 

to pick up and produces an excess of exhaust 

smoke, the mixture is too rich. 

Correct this condition by turning the Mixture Control 

Screw clockwise 5 degrees. lf the mixture is extremely 

rich, engine rpm will become unstable: opening the 

throttle will produce a great deal of smoke and rpm 

may drop suddenly or the engine may stop.

1.

Having provisionally set the idle mixture, the next step 

is to adjust the mixture for hovering flight.

Hover the model and actuate the throttle to observe 

response over the medium speed range. lf the engine 

smokes excessiveIy and throttle response is poor, the 

mixture is too rich ; in which case, land the model and 

turn the High-Speed Needle Valve clockwise. Do not 

close the High-Speed NeedIe Valve more than the 

recommended initial adjustment (3 to 4 clicks) at a 

time, keeping it a little on the rich side at this stage. DO 

NOT touch the Medium Speed Needle Valve.

lf, on the other hand, hovering is not stable and response 

to the throttIe is over-sensitive, or if the engine tends to 

overheat, this indicates that the mixture is too lean and 

should be corrected by turning the High-Speed Needle 

Valve counter-clockwise.

2.

When satisfactory hovering flight has been achieved, land 

the modeI again and re-check the engine's idle qualities.
After about 10 seconds of idling, open the throttle to 

'float' the model. lf the transition is smooth, the idle 

mixture is O.K. If the symptoms of either rich or Iean 

running are observed, readjust the Idle Mixture Control 

Screw accordingly.

NOTE: With this carburetor, neither the Idle Mixture 

Control Screw adjustment, nor the Medium Speed 

Needle Valve adjustment will have  any effect on 

mixture strength when the throttle is fully (or 

almost fully) open.

Now adjust the High-Speed Needle Valve to achieve 

the best performance when the model is flying at full 

throttle. lf, at full throttle, acceleration is poor, the exhaust 

unduly smoky and the model fails to reach expected 

straight line speed, the mixture is too rich and the 

High-Speed Needle Valve setting will need to be 

reduced. 

lf, however, after smoothly acceIerating to satisfactory 

high-speed straight and level flight, power is lost 

when the model is puIled up into a climb, the mixture 

is too lean. ln this case, land the model immediately 

and readjust  the High-Speed Needle Valve to a richer 

setting.

3.

4. Having now found the optimum setting for the High-Speed 

Needle Valve, re-check the engine's idle performance, 

fine tuning the Idle Mixture Control Screw, if necessary, to 

perfect the idle.
Now re-check hovering performance It may be found 

that (with the High-Speed Needle Valve now set for 

optimum full-throttle performance) hovering will 

reveal symptoms of slightly lean running at medium 

speeds. DO NOT touch the High-Speed Needle Valve.

5.

It is at this point that the Medium Speed Needle 

Valve, previously set two turns open, may be 

brought into operation. Open the Medium Speed 

Needle Valve 30 degrees, or 3-4 clicks, then fine 

tune until the optimum hovering performance is 

obtained.

If on the other hand, hovering reveals rich running, 

close the Medium Speed Needle Valve gradually 

until the optimum hovering performance is obtained. 

Once the engine has been run-in and the carburetor 

controls properly set up, it should be unnecessary to alter 

the mixture settings, except to make minor changes to the 

Main (High-Speed) Needle Valve occasionally, to take 

account of differences in climatic condisitions. However, 

as previously mentioned, the use of a different fuel, 

particularly one containing more, or less, nitromethane 

and / or a different type or proportion of lubricating oil, is 

likely to call for some modification to the High-Speed 

Needle-Valve adjustment. As a safety measure, it is 

advisable to increase the High-Speed Needle Valve 

setting by an extra half-turn counter-clockwise, prior to 

establishing the new setting. The same applies if the 

silencer type is changed. A different silencer may alter the 

exhaust pressure applied to the fuel feed and call for a 

revised Needle-Valve setting. The use of a different 

glowplug, or changes to the main rotor and its pitch 

angles may also require compensating carburetor 

readjustments.

The correct functioning of the carburetor depends on 

its small fuel orifices remaining clear. The minute 

particles of foreign matter that are present in any fuel 

can easily partially obstruct these orifices and upset 

mixture strength so that engine performance becomes 

erratic and unreliable. It is recommended that fuel is 

passed through a filter when the tank is filled and that 

a good in-line filter is installed between the fuel tank 

and carburetor and, furthermore, that this filter is 

frequently cleaned to remove foreign matter that 

accumulates on the filter screen. Finally, occasionally 

remove the needle-valve holder from the carburetor as 

shown in Photo and extract any remaining foreign 

matter that may have lodged in the location shown in 

Photo, below.

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