| T.R | Title | User | Personal
Name | Date | Lines |
|---|
| 933.1 | Simple things first! | MELEE::BSERVEY | Bill Servey | Tue Dec 03 1991 15:54 | 9 |
| 1) Does your throttle control have a neutral accelerator advance?
2) Do you squeeze the primer bulb prior to starting it cold? (5, 6 or
more squeezes!)
I had a real tough time starting cold until I figured out how to do #1.
I'd worry more about burning out the starter motor when experiencing
long starts than I would about my battery!
|
| 933.2 | Check the electric choke | GOLF::WILSON | Hey, you're pretty good - NOT! | Tue Dec 03 1991 16:05 | 27 |
| This sounds pretty straightforward. If the motor starts easily
by manually engaging the choke, check to make sure the electric
choke solenoid is working. Remove the cowling, turn the key on,
then push the key in (or whatever the method is for engaging the
choke from the control box), and watch the choke to make sure it
opens and closes.
If the choke is working, there should be no difference in starting
between using the electric choke or engaging it manually. If it's
not engaging with the solenoid, check to be sure the solenoid gets
juice when you hit the switch. If it does, the solenoid itself
may be bad. If not, check the switch and the wiring.
Also, this may be too obvious but be sure you pump up the fuel
line with the squeeze ball before trying to cold start. Most
fuel systems will lose pressure after sitting for several hours.
This can cause a similar problem to what you have.
FWIW, newer model OMC's do not have a choke. They have a cold
start valve, which injects extra fuel into the motor. The fuel
line *must* be pumped up, and the key is pushed in several times
to inject enough extra to fuel to richen the mixture so the motor
will start. If it continues to run rough after starting, it's
sometimes necessary to continue pushing the key for a brief period
until the engine warms up just a bit.
Rick
|
| 933.3 | Old gas?? | KOLFAX::WHITMAN | Acid Rain Burns my Bass | Wed Dec 04 1991 14:50 | 10 |
| 1: How old is the gas?
I've found that gas that has been sitting around awhile makes
my Mariner (a Merc in a gray flannel suit) start hard when cold.
2: How old is the oil?
3: What oil/gas mixture are you running?
4: Do you manually mix your gas & oil or is this done for you?
|
| 933.4 | Experience With Older Johnson | NEMAIL::COLVIN | | Thu Dec 05 1991 12:00 | 20 |
| I had a '73 65HP Johnson that always seemed to be hard to start when
cold, or when it would sometimes stall when hot. It had a toggle switch
on the rear of the control box which choked the engine when manually
moved. It also had a manual choke lever on the lower front but who
wnats to walk beck each time to engage and remove the choke. I tried
the method already suggested regarding checking the choke solenoid.
While doing that I found that the solenoid did not move or only moved a
small amount. When I applied voltage to it directly, however, it worked
fine. I traced the wires and found that voltage from the toggle switch
passed through some kind of temp. sensor in the engine block and seemed
to try to adjust choke closing based upon engine temperature. I did not
attemp to trouble shoot this system, but instead easily bypassed the
temp. sensor and wired voltage directly to choke solenoid so you got
full choke when the toggle was moved. This seemed to cure both the cold
and hot(after stalling) starting problem. This was accomplished by
moving the solenoid wire to a different terminal on the terminal block.
I do not know if yours works the same.
Larry
|
| 933.5 | | TOOK::SWIST | Jim Swist LKG2-2/T2 DTN 226-7102 | Thu Dec 05 1991 13:50 | 16 |
| Outboards are probably not theoretically harder to start (gas+spark =
start on both 2 and 4 cycle engines) when in good repair. But they
sure seem to be much more sensitive to minor fuel delivery and
carburetion problems than 4 cycle engines. An unchoked 4 cycle engine
will sputter and not start instantly when cold, but start it will. Two
cycle engines with choke or primer malfunctions may *never* start.
One of the things I never understood is why the fuel pump on a 4 cycle
engine seems to be perfectly capable of supplying fuel at cranking
speeds (you don't squeeze a primer bulb before starting your car,
right?), but my Johnson outboard shop manual flat out states that the
fuel pump on the o/b can't deliver adequate fuel at cranking speeds,
hence the need for various automatic and manual priming mechanisms.
Why the difference?
|
| 933.6 | 2 stroke theory | GOLF::WILSON | Hey, you're pretty good - NOT! | Thu Dec 05 1991 14:10 | 31 |
| RE: .5
>> One of the things I never understood is why the fuel pump on a 4 cycle
>> engine seems to be perfectly capable of supplying fuel at cranking
>> speeds (you don't squeeze a primer bulb before starting your car,
>> right?), but my Johnson outboard shop manual flat out states that the
>> fuel pump on the o/b can't deliver adequate fuel at cranking speeds,
>> hence the need for various automatic and manual priming mechanisms.
>> Why the difference?
There's a very good reason for this. The mechanical fuel pump in your car
is just that, it is mechanically actuated by a lobe on your engine's cam
shaft. It operates at any speed, although of course slower at lower rpm.
Since 2 stroke engines do not have camshaft to drive the fuel pump, the pump
is driven by pressure pulses in the crankcase. Each time a piston is on the
downstroke it pressurizes the crankcase. This pressure is exerted on the
fuel pump diaphagm, and is converted to vacuum pulses by the fuel pump for
sucking fuel out of the tank. At cranking speeds the fuel pump just doesn't
generate enough vacuum to draw fuel out of the tank and fill the carb.
These pressure pulses in the crankcase, by the way, are the reason that 2
strokes require some sort of a one-way valve, usually a reed valve, to
prevent the pressurized fuel and air mix from blowing back out through the
carburetor. There are other methods too besides reed valves, some 2 strokes
use a rotary valve, which is driven off the crank and exposes a port at the
precise time that fuel is to be drawn into the crankcase. Martin outboards
of the late 1940's and early 1950's used a patented poppet valve system, very
similar to the valves in a standard 4 stroke. But this is getting off the
subject a little... 8^)
Rick
|
| 933.7 | You're right | GOLF::WILSON | Hey, you're pretty good - NOT! | Thu Dec 05 1991 14:22 | 15 |
| RE: Note 933.5
>> An unchoked 4 cycle engine will sputter and not start instantly when
>> cold, but start it will. Two cycle engines with choke or primer
>> malfunctions may *never* start.
Forgot to answer this one, which also has a simple explanation. In your
car (or most other 4 strokes), you can overcome a non-working choke by
pumping the throttle several times, allowing the accelerator pump to squirt
extra fuel in and richen the mixture.
Most 2 strokes do not have an accelerator pump in the carb. You can pump
the throttle all day long and nothing will happen. So you're right, with
a cold 2 stroke, no choke + no accelerator pump = no start.
Rick
|
| 933.8 | | TOOK::SWIST | Jim Swist LKG2-2/T2 DTN 226-7102 | Fri Dec 06 1991 11:37 | 9 |
| Good info. You've confirmed my assertion that 2-cycle engines have
more *potential* for not starting properly.
Howcum large 2 cycle engines don't have electric fuel pumps? If I had
a 300 horse Johnson V-8 I'd feel pretty silly squeezing a primer bulb
:-) (and don't say you'd lose manual start capability - I tried
rope-starting my 115 once - it can't be done )
|
| 933.9 | Cost vs. benefit ratio? | SALEM::GILMAN | | Fri Dec 06 1991 12:09 | 4 |
| As always its the cost vs. benefit ratio. In a large 2 stroke outboard
I assume that the pressure pulse type fuel pump is adequate. To put
in an electric or mechanical pump would add cost to the OB and reduce
their competative price stance compared to other mfgrs.
|
| 933.10 | OMC has one | ROBOAT::HEBERT | Captain Bligh | Fri Dec 06 1991 12:22 | 5 |
| OMC offers an electric "priming pump" for its larger engines, which
precludes the need for the priming bulb. But, as far as I know, the
separate oil line still requires a squeeze bulb.
Art
|
| 933.11 | <Ah, I got fuel how about you!> | PIPE::HOWELL | | Fri Dec 06 1991 16:49 | 29 |
| One of the reasons that a 4 cycle starts easier is not the fuel pump
but the carb itself. The fuel required to start a 4-cycle actually sits
in the carburetors float bowl, in sufficient quantity to start and run
the engine for a brief period of time. During this period of running
the fuel pump "catches up" fills the bowl and then maintains sufficient
fuel supply to keep the bowl at the correct level. All priming of the
engine "pumping the accelerator" also draws upon this supply in the
bowl.
2-cycles carbs do not have such facilites and hence the priming of a
fuel supply with the bulb. Also, the two cycle engine, as mentioned
previously, must overcome backpressure on start and therefore the fuel
supply needs to be pressurized. When running, a 2-cycle fuel pump is
more critical at supplying pressure than actual fuel.
An electric pump could supply fuel at pressure. But the more logical
place for installation of an electric pump would be at the fuel tank
outlet or inline somewhere to the engines. Yes engines, as one pump
would service both engines.
The real issue is more one of cost than technology. Automobile/truck
EFPs do not have to meet spark suppression requirments, interesting
enough. Ones for marine use probably would have to (definitely for the
bilge mounted ones).
IMHE (In my humble experience) most 2-cycle starting problems are a
result of improper procedure; but then again pilot error is blamed for
everything.
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