JPH1162594A - Cylinder injection type spark ignition internal combustion engine - Google Patents

Abstract

PROBLEM TO BE SOLVED: To satisfactorily form stratified flow combustion air-fuel mixture in the vicinity of an ignition plug with certainty without striking fuel against a top surface of a piston, in order to widen an operation area where the stratified flow combustion is enabled, to the side of higher load. SOLUTION: This type of internal combustion engine has an ignition plug 6 and a fuel injection valve 7 for injecting fuel directly into a cylinder. The fuel injection valve 7 is operated for injecting fuel to a peripheral wall 8 of a combustion chamber which is not interrupted by a piston side surface even at a top dead center. A projection 9 is formed on the peripheral wall 8 of the combustion chamber, which projection 9 has a guide wall for introducing the fuel injected from the fuel injection valve 7, to the side of the ignition plug 6, along the peripheral wall 8.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a direct injection spark ignition internal combustion engine.

[0002]

2. Description of the Related Art At the end of a compression stroke, fuel is directly injected into a cylinder to vaporize the fuel, and at the time of ignition, a mixture having good ignitability is formed in the vicinity of a spark plug to enable lean burn with low fuel consumption. Is known. In such stratified combustion, there is known one that utilizes the heat of a piston to vaporize fuel. However, in such a stratified combustion internal combustion engine, complicated processing is required on the piston top surface in order to guide the fuel colliding with the piston to the vicinity of the spark plug, and the piston top surface processed in this manner is required. In order to cause the fuel to collide with the predetermined position, the fuel can be injected only when the piston position is within the predetermined range, and the stratified combustion can be performed only in the low load operation region where the fuel injection amount is relatively small. Can not.

In order to expand the operation range in which stratified combustion can be performed to a higher load side, Japanese Patent Application Laid-Open No. Sho 63-215815 discloses that fuel injected from a fuel injection valve takes heat from intake air in a cylinder. There is disclosed an internal combustion engine in which an air-fuel mixture is formed directly in the vicinity of a spark plug.

[0004]

In a general size internal combustion engine, the linear distance from the injection port of the fuel injection valve to the spark plug is relatively short. As a result, in the above-described prior art, it is difficult for the fuel injected from the fuel injection valve to sufficiently vaporize in the short time required to fly this short distance, and to burn well as intended. The mixture may not be formed.

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to increase the operating range in which stratified charge combustion can be performed to a higher load side, thereby ensuring a good stratified charge combustion mixture near the spark plug without causing fuel to collide with the piston top surface. It is to provide a direct injection spark ignition internal combustion engine that can be formed.

[0006]

According to the first aspect of the present invention, there is provided an in-cylinder injection spark ignition internal combustion engine comprising: a spark plug;
A fuel injection valve that injects fuel directly into the cylinder, wherein the fuel injection valve injects fuel toward the peripheral wall of the combustion chamber that is not covered by the piston side surface even at the top dead center. The combustion chamber peripheral wall portion is formed with a protrusion having a guide wall surface for guiding fuel injected from the fuel injection valve and traveling along the combustion chamber peripheral wall portion toward the spark plug. And

According to a second aspect of the present invention, there is provided an in-cylinder injection spark ignition internal combustion engine according to the first aspect, wherein the fuel injection valve has two injection ports. And injecting fuel to both sides of the spark plug.

[0008]

FIG. 1 is a schematic longitudinal sectional view showing an embodiment of a direct injection type spark ignition internal combustion engine according to the present invention. In the figure, 1 is an intake port, and 2 is an exhaust port. The intake port 1 is connected to the exhaust port 2 via the intake valve 3.
Communicate with each other through the exhaust valve 4 into the cylinder. 5
Is a piston, 6 is a spark plug disposed substantially at the center of the upper part of the combustion chamber, and 7 is a fuel injection valve for directly injecting fuel from the peripheral wall of the combustion chamber into the cylinder. The internal combustion engine of the present embodiment is a four-valve type having two intake valves and two exhaust valves for each cylinder, and the fuel injection valve 7 uses an intake air flow in a combustion chamber to prevent fuel vapor. It is arranged between two intake valves which have a relatively low temperature.

In FIG. 1, the piston 5 is shown at the top dead center position, and the fuel injection valve 7 has a combustion chamber peripheral wall portion 8 which is not covered by the piston side surface even at the top dead center.
The fuel is injected toward. FIG. 2 shows FIG.
2 is a sectional view taken along line AA of FIG. 1. As shown in the figure, the fuel injection valve 7 has two injection ports, and injects fuel to both sides of the ignition plug 6 at substantially the same horizontal angle with respect to the ignition plug 6. It has become.

The in-cylinder injection spark ignition internal combustion engine of the present embodiment uses such a fuel injection valve 7 to inject fuel during the compression stroke. As shown in FIG. 2, the fuel injected from the fuel injection valve 7 has a substantially cylindrical combustion chamber peripheral wall portion 8.
After that, it advances horizontally along the peripheral wall portion 8 of the combustion chamber, and reaches near the position where the fuel injection valve 7 is opposed to the peripheral wall portion 8 of the combustion chamber. A projection 9 having a guide wall surface 9a for guiding fuel traveling along the peripheral wall portion 8 of the combustion chamber toward the spark plug 6 is formed at the opposed position. Led to.
The guide wall surface 9a is curved in a concave shape in the horizontal direction, is smoothly connected to the peripheral wall portion 8 of the combustion chamber, and does not significantly reduce the inertia force of the fuel.

The fuel injected from the fuel injection valve 7 removes heat from the intake air during flight until it collides with the combustion chamber peripheral wall portion 8, and thereafter removes heat from the combustion chamber peripheral wall portion 8 and the protrusion 9. As a result, when the injected fuel reaches the vicinity of the spark plug 6, the fuel is well vaporized by utilizing the sufficient heat thus taken and the relatively long time necessary to pass through such a path. Thus, a mixture having good ignitability can be reliably formed around the ignition plug 6. The fuel injected from the fuel injection valve 7 is shaped like a fan in the horizontal direction, so that the injected fuel easily takes heat from the intake air.
The vertical direction is not fan-shaped, so that the liquid fuel traveling along the combustion chamber peripheral wall portion 8
Is prevented from reaching the piston ring and the upper wall surface of the combustion chamber, and all the injected fuel is reliably guided toward the spark plug 6. In order to further assure this, a guide groove extending in the circumferential direction may be formed in the peripheral wall portion 8 of the combustion chamber and the guide wall surface 9a of the protrusion 9.

In order to realize good stratified combustion, it is necessary to reach an ignition timing before the mixture formed around the spark plug 6 diffuses. Therefore, in the present embodiment, the fuel injection start timing is set back from the ignition timing for each engine operating state so that the ignition timing is set immediately before the mixture formed by the fuel at the beginning of the fuel injection is diffused. Have been. As described above, the injected fuel passes through the long path and reaches the spark plug 6, so that a relatively long time is secured from the start of fuel injection to ignition, and a relatively large amount of fuel is injected during this time. It is possible to
The stratified combustion operation with low fuel consumption can be expanded to the high engine load side. Also, unlike fuel that collides with the piston top surface, it is possible to freely set the fuel injection timing irrespective of the piston position, which also makes it easy to inject a large amount of fuel.

In the present embodiment, the fuel injection valve 7
As described above, fuel is injected in two directions as described above. Since these fuels reach the protrusion 9 from both sides of the peripheral wall portion 8 of the combustion chamber, the fuel injected in each direction on both sides of the protrusion 9 A guide wall surface 9a for guiding in the direction of the spark plug 6 is provided. Of course, a projection may be provided for each guide wall. In the present embodiment, since the fuel is injected from the two injection ports of the fuel injection valve 7 to the ignition plug 6 at substantially the same horizontal angle, the guide wall surfaces 9a on both sides of the protrusion 9 are provided.
Are symmetrical, so that the fuel injected in each direction at the same time reaches the vicinity of the ignition plug 6 almost simultaneously.

By injecting fuel in two directions, the fuel injected in each direction can sufficiently remove heat from the intake and the peripheral wall of the combustion chamber to be well vaporized. Can be increased. Thus, within a limited time from the start of fuel injection to ignition, a good mixture can be formed around the spark plug 6 even if a considerably large amount of fuel is injected, and the stratified combustion operation can be performed up to a considerably high load. Can be realized. The two-way fuel injection does not need to have a particularly equal horizontal angle as long as it is on both sides of the spark plug 6, and it is possible to surely increase the fuel injection amount per unit time as compared with the one-way fuel injection. It becomes possible.

In this embodiment, as shown in FIG. 1, the bottom surface of the projection having the guide wall is formed so as not to collide with the top surface of the piston at the top dead center. The fuel injected from the fuel injection valve 7 collides with the peripheral wall portion 8 of the combustion chamber,
Since the combustion chamber peripheral wall portion 8 is a portion that is not covered by the piston side surface at the top dead center, the problem of dilution of engine oil with fuel does not occur. Further, since the injected fuel removes the heat of the peripheral wall of the combustion chamber and lowers the temperature in the combustion chamber, the charging efficiency of the intake air can be improved and the engine output can be increased. is there.

In order to form an air-fuel mixture in which all the injected fuel satisfactorily burns, it is necessary to secure time for the injected fuel to vaporize immediately before the end of the fuel injection. This time is the time from the end of the fuel injection to the ignition, and if this time is sufficiently ensured, there is a possibility that a large amount of fuel cannot be injected at a high engine load. In this case, all or part of the required fuel injection amount may be injected during the intake stroke.

FIG. 3 is a sectional view corresponding to FIG. 1 and showing fuel injection during the intake stroke. The fuel injected from the fuel injection valve 7 collides with the intake valve 3 during valve opening, is atomized, and is further diffused by intake air flowing from the intake port 1,
At the time of ignition, a well-uniform mixture can be formed in the cylinder. In this way, when all of the required fuel injection amount is injected during the intake stroke, uniform combustion with high output is performed. When a part of the required fuel injection amount is injected in the intake stroke, the remaining required fuel injection amount is
As described above, the fuel is injected during the compression stroke, and a good air-fuel mixture is formed in the vicinity of the ignition plug 6. In this way, reliable ignitability is ensured, and this flame is propagated to the surrounding homogeneous mixture, so that stratified combustion with relatively high output can be realized.

[0018]

As described above, according to the in-cylinder injection type spark ignition internal combustion engine according to the first aspect of the present invention, the fuel injection valve for directly injecting fuel into the cylinder is provided even at the top dead center. Fuel is injected toward the peripheral wall of the combustion chamber that is not covered by the side surface of the piston, and fuel injected from the fuel injection valve and traveling along the peripheral wall of the combustion chamber is directed toward the spark plug. Since the projection having the guiding wall surface is formed, the injected fuel reaches the vicinity of the ignition plug in a sufficient time, and within this time, heat is taken from the intake and the peripheral wall of the combustion chamber, and the fuel is favorably removed. And a good stratified combustion mixture can be reliably formed near the spark plug. Also, unlike fuel that collides with the top of the piston, the fuel injection timing can be set regardless of the piston position, and a large amount of fuel can be injected. Can be expanded

Further, according to the cylinder injection type spark ignition internal combustion engine according to the second aspect of the present invention, the fuel injection valve has two injection ports, and injects fuel to both sides of the ignition plug. Each injected fuel forms a good stratified combustion mixture near the spark plug, so that the fuel injection amount per unit time can be increased as a whole, and a larger amount of fuel can be injected, and the engine height can be further increased. The stratified combustion region can be expanded to the load side.

[Brief description of the drawings]

FIG. 1 is a schematic longitudinal sectional view showing an embodiment of a direct injection spark ignition internal combustion engine according to the present invention.

FIG. 2 is a sectional view taken along line AA of FIG.

FIG. 3 is a schematic longitudinal sectional view corresponding to FIG. 1 for illustrating intake stroke fuel injection.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 ... Intake port 2 ... Exhaust port 3 ... Intake valve 4 ... Exhaust valve 5 ... Piston 6 ... Spark plug 7 ... Fuel injection valve 8 ... Combustion chamber peripheral wall part 9 ... Projection part 9a ... Guide wall surface

──────────────────────────────────────────────────の Continued on the front page (51) Int.Cl. ⁶ Identification code FI F02M 61/14 310 F02M 61/14 310A 310S (72) Inventor Akitoshi Tomoda 1 Toyota Town, Toyota City, Aichi Prefecture Inside Toyota Motor Corporation (72) Inventor Hiroyuki Kitaeast 1 Toyota Town, Toyota City, Aichi Prefecture Inside Toyota Motor Corporation

Claims (2)

[Claims] An ignition plug and a fuel injection valve for directly injecting fuel into a cylinder, wherein the fuel injection valve is not covered by a piston side surface even at a top dead center. To inject fuel toward
The combustion chamber peripheral wall portion is formed with a protrusion having a guide wall surface for guiding fuel injected from the fuel injection valve and traveling along the combustion chamber peripheral wall portion toward the spark plug. In-cylinder injection spark ignition internal combustion engine. 2. The fuel injection valve has two injection ports,
The in-cylinder injection spark ignition internal combustion engine according to claim 1, wherein fuel is injected into both sides of the spark plug.