KR102034334B1 - Fuel injection arrangement - Google Patents

Abstract

The fuel injection arrangement for injecting liquid fuel into the cylinder 11 of the piston engine comprises a first fuel injection valve 1, a second fuel injection valve 2, and fuel injection valves 1, 2. A pressure medium source 3 for supplying water. The selection valve 4 is used to select which one of the fuel valves 1, 2 is used. The first fuel conduit 6 connects the first fuel injection valve 1 to the selection valve 4, and the second fuel conduit 7 connects the second fuel injection valve 2 to the selection valve 4. do. The fuel injection arrangement comprises means 8 for regulating the pressure of the second fuel conduit 7 between the selection valve 4 and the second fuel injection valve 2.

Description

FUEL INJECTION ARRANGEMENT}

The invention relates to a fuel injection arrangement for injecting liquid fuel into a cylinder of a piston engine according to the preamble of claim 1.

In large internal combustion engines, such as in ship or power plant engines, each cylinder of the engine may be provided with one or more fuel injectors. For example, dual fuel engines may be provided with one injector for operation on liquid fuel and another injector for injecting a small amount of liquid pilot fuel when the engine is operated on gaseous fuel. Can be. In addition, engines using only liquid fuel may be provided with different injectors for different loads. A problem with dual fuel engines in particular is that the amount of fuel injected through one of the fuel injectors is very small. Therefore, such engines include conventional fuel injection pumps for supplying fuel to fuel injectors at high pressure when the engine is operated on liquid fuel, and pilot fuel for liquid fuel when the engine is operated on gaseous fuel. Common rail systems for supplying injectors are generally provided. This kind of system allows for very small injection quantities and can even meet very stringent emission regulations. However, two separate fuel injection systems increase engine complexity.

It is an object of the present invention to provide an improved fuel injection arrangement for injecting liquid fuel into a cylinder of a piston engine. Characteristic features of the arrangement according to the invention are given in the features of claim 1.

The fuel injection arrangement according to the invention comprises a pressure medium source for supplying fuel to a first fuel injection valve, a second fuel injection valve, a first fuel injection valve and a second fuel injection valve, a first fuel injection from a pressure medium source. A selection valve for selectively allowing flow to the valve or the second fuel injection valve, a fuel supply conduit for connecting a pressure medium source to the selection valve, a first fuel conduit for connecting the first fuel injection valve to the selection valve, And a second fuel conduit for connecting the second fuel injection valve to the selection valve. The arrangement further comprises means for regulating the pressure of the second fuel conduit between the selection valve and the second fuel injection valve.

Using the arrangement according to the invention, the same pressurized fuel supply can be used to fuel different fuel injectors used to inject different amounts of fuel at different pressures. Thus, the need for separate fuel supply systems for different fuel injection valves can be eliminated, which helps to make the fuel injection system less complex and expensive.

The pressure medium source may be a high pressure fuel injection pump. The second fuel injection valve may for example be a pilot fuel valve configured to inject less fuel than the first fuel injection valve.

According to an embodiment of the invention, the arrangement comprises means for controlling the opening and / or closing timing of the second fuel injection valve. The means may for example be a control valve. This enables accurate control of the timing of the second fuel injection valve and precise control of the amount of fuel injected through the second fuel injection valve.

In accordance with an embodiment of the invention, the arrangement includes an overflow conduit branching from the second fuel conduit and a throttle disposed in the overflow conduit for regulating the pressure of the second fuel conduit. Instead of a throttle, a pressure reducing valve can be used to adjust the pressure of the second fuel conduit.

Embodiments of the present invention are described in more detail below with reference to the accompanying drawings.

1 shows a schematic diagram of a fuel injection arrangement according to an embodiment of the invention.

The fuel injection arrangement according to the invention is particularly suitable for large internal combustion engines such as main or auxiliary engines of ships, engines of marine applications or engines used in power plants for producing electricity. The invention is particularly advantageous in dual fuel engines that can be operated on both liquid fuels and gaseous fuels, in which a small amount of liquid pilot fuel is used when the engine is operated in gas mode. However, the present invention can also be utilized in other engines in which two or more fuel injectors are used for each cylinder.

1 shows a schematic diagram of a fuel injection arrangement according to an embodiment of the invention. The arrangement comprises a first fuel injection valve 1 and a second fuel injection valve 2 arranged for injecting liquid fuel into the cylinder 11 of the piston engine. The second fuel injection valve 2 is configured for injecting a smaller amount of fuel than the first fuel injection valve 1. In the embodiment of the figure, the second fuel injection valve 2 is a pilot fuel valve used in a dual fuel engine for injecting a small amount of liquid fuel into the cylinder 11. Burning of the liquid fuel initiates combustion of the gas-air mixture in the cylinder 11. The second fuel injection valve 2 can also be used in engines other than dual fuel engines for injecting fuel at low loads. Each cylinder 11 of the engine is provided with a similar fuel injection arrangement. In the embodiment of the figure, the fuel injection valves 1, 2 are part of a fuel injection unit 12 used for injecting fuel directly into the combustion chamber of the cylinder 11. However, the fuel injection valves 1, 2 need not be disposed in the common fuel injection unit, and the fuel injection valves can also be separated, and one or both of the fuel injection valves 1, 2 can draw fuel. It can also be used for injection into the preliminary combustion chamber. Both fuel injection valves 1, 2 have a conventional type. Each fuel injection valve 1, 2 includes nozzles 1a, 2a disposed at the ends of the fuel injection valves 1, 2, and a fuel gallery disposed inside the body of the fuel injection valves 1, 2 ( 1d, 2d). The fuel is stored in the fuel galleries 1d and 2d before being injected into the cylinder 11 through the nozzles 1a and 2a. Each fuel injection valve 1, 2 is also provided with valve needles 1b, 2b for opening and closing fluid communication between the fuel galleries 1d, 2d and the nozzles 1a, 2a. The valve needles 1b and 2b are held in the closed position by the springs 1c and 2c. Many different configurations of the fuel injection valves 1, 2 are possible instead of the configuration shown in the figure. For example, the valve needles 1b, 2b can be coaxial, and both fuel injection valves 1, 2 have separate nozzle holes for each of the fuel injection valves 1, 2. The common nozzle part can be utilized.

Both fuel injection valves 1, 2 are connected to a pressure medium source 3, which in the embodiment of the figure is a high pressure fuel injection pump. The fuel does not need to be supplied to the fuel injection valves 1, 2 directly from the fuel injection pump 3, which fuel can be pressurized by the pump 3, and also the fuel injection valves 1, 2. May be stored in the chamber prior to being fed to. The pump 3 is a conventional fuel injection pump that can be adjusted to select the appropriate fuel injection timing and quantity at different loads. The fuel injection arrangement is provided with a fuel supply conduit 5 for delivering fuel from the fuel injection pump 3 to the fuel injection valves 1, 2. Only one fuel injection valve of the fuel injection valves 1, 2 is used at a time, so that the arrangement has a first fuel injection valve 1 or a second fuel injection valve 2 from the fuel injection pump 3. A selection valve 4 is provided to allow flow to the furnace. The selector valve 4 is a three-way valve provided with one inlet port 4a and a first outlet port 4b and a second outlet port 4c. The first fuel conduit 6 connects the first outlet port 4b of the selector valve 4 to the first fuel injection valve 1, and the second fuel conduit 7 connects the second outlet port 4c. To the second fuel injection valve (2). The inlet port 4a of the selector valve 4 is connected to the fuel supply conduit 5. In the embodiment of the figure, the selector valve 4 is a solenoid valve.

When the engine is operated on liquid fuel, the selector valve 4 permits flow from the fuel injection pump 3 to the first fuel injection valve 1 and prevents flow to the second fuel injection valve 2. In position. The timing of fuel injection and the amount of fuel injected are controlled by the fuel injection pump 3 in a conventional manner. When the pressure of the fuel gallery 1d of the first fuel injection valve 1 is sufficiently high, the valve needle 1b is pushed against the spring 1c, and the first fuel injection valve 1 is opened. Thus, fuel is injected into the combustion chamber of the cylinder 11 through the nozzle 1a of the first fuel injection valve 1. The spring 1c pushes the valve needle 1b of the first fuel injection valve 1 to the closed position when the pressure of the fuel gallery 1d drops sufficiently and the fuel injection is eventually terminated.

When the engine is operated in gas mode, the selector valve 4 is allowed to flow from the fuel injection pump 3 to the second fuel injection valve 2 and from the fuel injection pump 3 to the first fuel injection valve 1. Is switched to a position where flow to is prevented. In gas mode, only a small amount of liquid fuel is used. Therefore, the total amount supplied by the fuel injection pump 3 is not necessary. Therefore, the arrangement is provided with means 9 for controlling the opening of the second fuel injection valve 2. In the embodiment of the figure, the arrangement is provided with a control valve 9 which is used for operating the second fuel injection valve 2. Using the control valve 9, opening of the second fuel injection valve 2 is prevented even when the pressure in the fuel gallery 2d is high enough to move the valve needle 2b with respect to the spring 2c. Can be. Thus, the opening and closing moments of the second fuel injection valve 2 are determined by the control valve 9 which enables an accurate timing. The control valve 9 is electrically operated. In addition, other kinds of actuators may be used to control the opening and / or closing timing of the second fuel injection valve 2. In addition, the arrangement is provided with an overflow conduit 10 through which excess fuel can be returned to the tank 12. The overflow conduit 10 is connected between the second fuel conduit 7, ie between the selector valve 4 and the second fuel injection valve 2. The injection pressure required for the second fuel injection valve 2 is lower than the maximum pressure of the fuel injection pump 3. Therefore, the overflow conduit 10 is provided with means 8 for adjusting the pressure of the second fuel conduit 7. In the embodiment of the figure, the means is an adjustable throttle 8. Instead of the throttle 8, the overflow conduit 10 may be provided with a pressure reducing valve. By using the pressure regulating means, the injection pressure of the second fuel injection valve 2 can be adjusted to an appropriate level irrespective of the pressure of the fuel injection pump 3.

Using the arrangement according to the invention, a separate fuel injection system is not necessary for injecting pilot fuel in dual fuel engines, which makes the fuel injection system less complex and expensive.

While the invention is not limited to the foregoing embodiments, it will be apparent to those skilled in the art that the present invention may vary within the scope of the appended claims. For example, not all of the engine cylinders are provided with their own fuel injection pump, but it is possible for one pump to supply fuel to several cylinders of the engine.

Claims (8)

As a fuel injection arrangement for injecting liquid fuel into the cylinder 11 of the piston engine,
The fuel injection arrangement is a pressure for supplying fuel to the first fuel injection valve 1, the second fuel injection valve 2, the first fuel injection valve 1 and the second fuel injection valve 2. Media source 3, selection valve 4 for selectively allowing flow from the pressure medium source 3 to the first fuel injection valve 1 or the second fuel injection valve 2, the pressure medium A fuel supply conduit 5 for connecting the circle 3 to the selection valve 4, a first fuel conduit 6 for connecting the first fuel injection valve 1 to the selection valve 4, A second fuel conduit 7 for connecting said second fuel injection valve 2 to said selection valve 4, and said second between said selection valve 4 and said second fuel injection valve 2; Means (8) for regulating the pressure of the fuel conduit (7),
The fuel injection arrangement comprises an overflow duct 10 branching out of the second fuel conduit 7, wherein the overflow conduit 10 regulates the pressure of the second fuel conduit 7. A fuel injection arrangement for injecting liquid fuel into the cylinder (11) of the piston engine, characterized in that a means (8) is provided. The method of claim 1,
The fuel injection arrangement for injecting liquid fuel into the cylinder (11) of the piston engine, characterized in that the pressure medium source (3) is a high pressure fuel injection pump. The method of claim 1,
The second fuel injection valve 2 is configured for injecting a smaller amount of fuel than the first fuel injection valve 1, for injecting liquid fuel into the cylinder 11 of the piston engine. Fuel injection arrangement. The method of claim 3, wherein
The fuel injection arrangement for injecting liquid fuel into the cylinder (11) of the piston engine, characterized in that the second fuel injection valve (2) is a pilot fuel valve. The method according to any one of claims 1 to 4,
The fuel injection arrangement comprises means 9 for controlling the opening and / or closing timing of the second fuel injection valve 2, injecting liquid fuel into the cylinder 11 of the piston engine. Fuel injection arrangement for The method of claim 5,
Said fuel injection arrangement comprises a control valve 9 for controlling the opening and / or closing timing of said second fuel injection valve 2, injecting liquid fuel to the cylinder 11 of the piston engine. A fuel injection arrangement for injecting. The method according to any one of claims 1 to 4,
A fuel injection arrangement for injecting liquid fuel into a cylinder (11) of a piston engine, characterized in that the means (8) for adjusting the pressure of the second fuel conduit (7) is a throttle. The method according to any one of claims 1 to 4,
The fuel injection arrangement for injecting liquid fuel into the cylinder (11) of the piston engine, characterized in that the means (8) for regulating the pressure of the second fuel conduit (7) is a pressure reducing valve.

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