How to know if the Piston is at Top Dead Center ?
During the maintenance of the marine engines we have to ascertain
that the piston is at TDC to check tappet clearance. Though markings
are provided on the flywheel, the marine engineer must know the other
methods like inspection of camshaft and fuel pump window.
What is the need to know the TDC Position of Piston
During
the maintenance of a four stroke marine diesel engine there are times
when we must know whether the particular unit’s piston is at the top
dead center of not. For example during the checking the tappet
clearances of the engine it is important to know which unit is at TDC.
Referring the flywheel would indicate two units, but only one can be at
injection TDC.
So which one is it? In this article the various methods to find out the position of the piston would be discussed. Some are very simple and conventional methods but some are little complicated but never the less very important when you require an independent method to find the TDC.
So which one is it? In this article the various methods to find out the position of the piston would be discussed. Some are very simple and conventional methods but some are little complicated but never the less very important when you require an independent method to find the TDC.
Flywheel Method
The
fly wheel is the simplest method to know which unit is at TDC. If the
fly wheel shows two units, simply open the bonnet covers and check
visually. The unit at TDC would be having both the inlet and the
exhaust valve
closed and hence relaxed springs; the other unit would have both the
arms of the rocker arm at different levels. In addition the push rods
of the unit at TDC would be loose and can be turned by hand because of
the release of the clearances.
There is a word of caution however this method is only useful in a working generator which you have just stopped to check the tappet clearances. In case you have removed the rocker arms for any reason the spring height and the push rod freeness check would lead you now where and misguide you.
There is a word of caution however this method is only useful in a working generator which you have just stopped to check the tappet clearances. In case you have removed the rocker arms for any reason the spring height and the push rod freeness check would lead you now where and misguide you.
Flywheel Marking
Fuel Pump Method
The
most accurate method to know the position of the piston without opening
up the piston is the fuel pump window. The fuel pumps have a window and
as the plunger goes up and down, so does the mark on the bottom spring
holder. On the body of the fuel pump there are cut marks which start
the start of injection.
In a diesel engine the start of injection is the injection TDC where both the inlet and the exhaust valves are closed. In this injection TDC we can check the tappet clearance. It must be noted however that the injection TDC is not the absolute TDC as the piston is still some way down depending on the design of the engine. An injection TDC may be around 5 degrees before TDC.
In a diesel engine the start of injection is the injection TDC where both the inlet and the exhaust valves are closed. In this injection TDC we can check the tappet clearance. It must be noted however that the injection TDC is not the absolute TDC as the piston is still some way down depending on the design of the engine. An injection TDC may be around 5 degrees before TDC.
Dial Gauge Method
In
this method the fuel injector is taken out and from the opening a dial
gauge is put inside. Then the turning gear is engaged and the engine
turned over. The pointer of the dial gauge will move in one direction
and then stop and start in opposite direction.
The moment the pointer of the dial gauge stops and changes its direction of movement is the TDC of the unit. This method is not normally used in day to day practice, but may be used in the calibration of the fly wheel if it is not calibrated or after some repairs.
The moment the pointer of the dial gauge stops and changes its direction of movement is the TDC of the unit. This method is not normally used in day to day practice, but may be used in the calibration of the fly wheel if it is not calibrated or after some repairs.
Dial Gauge
Cam Shaft Method
The
cam shaft window of the engine can be opened up and the camshaft
inspected. The cam of the engine has a base circle, acceleration and
the dwell period. If the roller of the follower is at the base circle
then the particular valve is closed by spring action. When both the
exhaust valve and the inlet valve
follower are on the base circle then also the unit is at TDC.
It must be remembered that as a four stroke engine has two rotation of the crankshaft there is one injection TDC where the injection and the combustion take place the second time the piston is at TDC is when the exhausting of the flue gases take place. It is very important to identify the combustion TDC as tappets have to be adjusted at that point.
It must be remembered that as a four stroke engine has two rotation of the crankshaft there is one injection TDC where the injection and the combustion take place the second time the piston is at TDC is when the exhausting of the flue gases take place. It is very important to identify the combustion TDC as tappets have to be adjusted at that point.
Cam Profile
Crank Case Method
In
this method the crank case doors are opened up and the piston is
visually checked whether is going up or down. This is the surest method
but a bit cumbersome. It should be used when you have a strong doubt
about the other methods.
Valve spring Method
This
is not an independent method but is used in conjunction with the
flywheel method. In this method if the flywheel is indicating two
units, you can check the springs of both the units.
The unit the springs are loose at is the one at TDC. The caution is that this method is useful for an engine in use. If you have removed the rocker arms during the overhaul and thereafter you want to use this method than it can cause errors.
The unit the springs are loose at is the one at TDC. The caution is that this method is useful for an engine in use. If you have removed the rocker arms during the overhaul and thereafter you want to use this method than it can cause errors.
Push Rod Method
This
method is like the spring method and you check that the push rods are
free to turn. The unit at TDC will have loose springs. The care that
must be taken is that it should be used along with the flywheel method
and should be used in a working engine. By a working engine, I mean the
engine that was running and has been stopped for tappets adjustment.
Spill Timing Method
This
is a very accurate and tedious method and generally used to check the
start of injection of the fuel pump. It will also give you the
injection TDC. It is not used in tappets checking process but used to
find the start of injection when you have power or thermal balance
problems.
Basically in this method the delivery valve of the fuel pump along with the delivery valve spring are removed. There after a special "U" shaped pipe is put in place of the high pressure pipe. After this operation the engine is turned by the turning gear and slowly brought neat the expected TDC.
Soon oil will start spilling out of the pipe because the oil is entering from the inlet port which is uncovered by the plunger. Keep turning the engine slowly and the oil quantity will reduce. The point where the oil flow just stops is the start of the injection. At this moment the plunger of the fuel pump has closed the inlet port and if you observe the fuel cam you will find the follower is no longer at the base circle.
As this method involves the spilling of fuel, it is called as the spill timing method.
Basically in this method the delivery valve of the fuel pump along with the delivery valve spring are removed. There after a special "U" shaped pipe is put in place of the high pressure pipe. After this operation the engine is turned by the turning gear and slowly brought neat the expected TDC.
Soon oil will start spilling out of the pipe because the oil is entering from the inlet port which is uncovered by the plunger. Keep turning the engine slowly and the oil quantity will reduce. The point where the oil flow just stops is the start of the injection. At this moment the plunger of the fuel pump has closed the inlet port and if you observe the fuel cam you will find the follower is no longer at the base circle.
As this method involves the spilling of fuel, it is called as the spill timing method.
Conclusion
There
are various methods by which the TDC can be found. The simplest and the
most straight forward method is the reference of the fly wheel, but
sometimes the fly wheel itself is changed and you need to calibrate the
new one. Sometimes to check if the slippage of the crankshaft has taken
place you need two methods, especially where the crankshaft does not
have marks to indicate slippage.
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