When it comes to Cummins generator, it is well known that the gensets have good quality, low fuel consumption, low noise, big output power and reliable performance. The reliable stability, economy, power performance, durability and environmental safety is welcomed by customers.
In last article, we talk about CCEC Cummins diesel engines operating principles. Well, in this article, you will learn what are the major components of its PT Fuel System.
Fuel System
The PT fuel system is used exclusively on Cummins Diesels. The identifying letters, “PT” are an abbreviation for “pressure-time”.
The operation of the Cummins PT Fuel System is based on the principle that the volume of liquid flow is proportionate to the fluid pressure, the time allowed to flow and the passage size through which the liquid flows. To apply this simple principle to the Cummins PT Fuel System, it is necessary to provide:
1. A fuel pump.
2. A means of controlling pressure of the fuel being delivered by the fuel pump to the injectors so individual cylinders will receive the right amount of fuel for the power required of the engine.
3. Fuel passages of the proper size and type so fuel will be distributed to all injectors and cylinders with each pressure under all speed and load conditions.
4. Injectors to receive low-pressure from the fuel pump and deliver it into the individual combustion chambers at the right time, in equal quantities and proper condition to burn.
The PT fuel system consists of the fuel pump, supply lines, drain lines, fuel passages and injectors.
Fuel Pump
The fuel pump is coupled to the fuel pump drive which is driven from the engine gear train. Fuel pump main shaft in turn drives the gear pump, governor and tachometer shaft assemblies.
Fuel injection pumps must be supplied with fuel under pressure because they have insufficient suction ability. All diesel injection systems require a supply pump transfer fuel from the supply tank through the filters and lines to the injection pump.
Gear Pump And Pulsation Damper
The gear pump is driven by the pump main shaft and contains a single set of gears to pick up and deliver fuel throughout the fuel system. Inlet is at the rear of the gear pump. A pulsation damper mounted to the gear pump contains a steel diaphragm which absorbs pulsations and smooths fuel flows through the filter screen and to the governor assemblies.
Throttle
The throttle provides a means for the operator to manually control engine speed above idle as required by varying operating conditions of speed and load.
In the fuel pump, fuel flows through the governor to the throttle shaft. At idle speed, fuel flows through the idle port in the governor barrel, past the throttle shaft. To operate above idle speed, fuel flows through the main governor barrel port to the throttling hole in the shaft.
PT(type G) VS Fuel Pump
The PT (type G) VS fuel pump, is made up of four main units; the gear pump, standard governor, throttle and a VS (Variable Speed) governor.
Governors
The “Standard” governor is actuated by a system of springs and weights, and has two functions:
1. The governor maintains sufficient fuel for idling with the throttle control in idle position.
2. It cuts off fuel to the injectors above maximum rated rpm.
During operation between idle and maximum speeds, fuel flows through the governor to the injectors. This fuel is controlled by the throttle and limited by the size of the idle spring plunger counter bore. When the engine reaches governed speed, the governor weights move to governor plunger, and fuel passages to the injectors are shut off. At the same time another passage opens and dumps the fuel back into the main pump body.
In this manner, engine speed is controlled and limited by the governor regardless of throttle position.
The VS governor, in the upper portion of the fuel pump housing, operates in series with the standard governor to permit operation at any desired (near constant) speed setting within the range of the standard governor. Speed can be varied with the VS speed control lever, located at top of pump. This pump gives surge free govern ring throughout the engine speed range with a speed droop smaller than the standard governor and is suited to the varying speed requirements of power take off, etc.
Note: When operating the PT(type G) VS fuel pump at any desired constant speed, the VS governor lever should be placed in operating position and the throttle locked in full open position to allow a full flow of fuel through the standard governor.
PT (tyep D) Injectors
The injector provides a means of introducing fuel into each combustion chamber. It combines the acts of metering, timing and injection. Principles of operation are the same for Inline and V-engines but injector size and internal design differs slightly.
Fuel supply and drain flow are accomplished through internal drillings in the cylinder heads. A radial groove around each injector mates with the drilled passages in the cylinder head and admits fuel through an adjustable orifice plug in the injector body. A fine mesh screen at each inlet groove provides final fuel filtration.
The fuel grooves around the injectors are separated by 0-rings which seal against the cylinder head injector bore. This forms a leak-proof passage between the injectors and the cylinder head injector bore surface.
Fuel flows from a connection atop the fuel pump shutdown valve through a supply line into the lower drilled passage in the cylinder head. A second drilling in the head is aligned with the upper injector radial groove to drain away excess fuel. A fuel drain allows return of the unused fuel to the fuel tank.
The injector contains a ball check valve. Ad the injector plunger moves downward to cover the feed opening, an impulse pressure wave seats the ball and at the same time traps a positive amount of fuel in the injector cup for injection. As the continuing downward plunger movement injects fuel into the combustion chamber, it also uncovers the drain opening and the ball rises from its seat. This allows free flow through the injector and out the drain for cooling purposes and purging gases from the cup.
Fuel Lines, Connections And Valves
Supply And Drain Lines - Fuel is supplied through lines to cylinder heads. A common drain line returns fuel not injected, to supply tank.
Connections - Fuel connectors are used between the Inline engine cylinder heads to bridge the gap between each supply and drain passage.
Comments
Post a Comment