KR0132588Y1 - Intake valve of gasoline engine - Google Patents

Abstract

The present invention relates to an intake valve of a gasoline engine, and an object thereof is to provide an intake valve of a gasoline engine which is capable of promoting atomization of fuel gas, suppressing the formation of adhesive on the valve surface, and reducing the emission of air pollutants. In the intake valve 20 composed of the valve head 20a and the valve stem 20b, a hollow portion B is formed inside one side thereof, and the center of gravity is moved by a certain amount of eccentricity e from the center line. It is characterized by being formed.

Description

Intake valve of gasoline engine

1 is a schematic main cross-sectional view of an internal combustion engine.

2 is a cross-sectional view of main parts of a conventional intake valve.

3 is a schematic cross-sectional view showing an intake valve and an operating relationship thereof according to the present invention.

* Explanation of symbols for main parts of the drawings

20: intake valve 20a: valve head

20b: valve stem 21: valve seat

22: cam 23: spring

B: hollow part e: eccentricity

The present invention relates to an intake valve of a gasoline engine, and in particular, the center of gravity of the valve is formed to be eccentric to cause a natural rotational movement with the reciprocating movement during operation, to promote the atomization of fuel gas and suppress the formation of adhesive on the valve surface The present invention relates to an intake valve capable of reducing the emission of air pollutants.

In general, in the case of a gasoline engine, as shown in FIG. 1, the mixer is sucked into the cylinder 1 through the intake port 3, and then burned and exploded in the combustion chamber A, thereby causing the piston 2 to reciprocate. By this, power is generated. Here, the time when the mixed gas of air and fuel is sucked into the cylinder 1 corresponds to the intake stroke in which the intake valve 5 is opened in the case of a four-cycle engine. The intake valve 5 is normally opened and closed by linear reciprocating motion. At this time, the intake valve (5) is actually a slight rotation to the vibration of the engine and the drive of the cam (8) at the same time as the reciprocating motion, but is a very fine factor.

In the drawings, reference numerals 4, 6 and 7 denote exhaust ports, exhaust valves and tappets, respectively.

In the conventional conventional intake valve structure, as shown in FIG. 2, the valve head 10a and the valve stem 10b are integrated, and the inside of the intake valve is full. Due to such a structure, the conventional intake valve 10 only performs a linear reciprocating motion, and hardly expects its own rotational motion. Therefore, as the driving time of the engine elapses when the intake valve 10 is used, lubricating oil is formed on the valve head 10a by a mixer or the like. Not only does this cause a deterioration in driving performance and fuel economy (especially in cold weather), but also causes a lot of air pollutants in cold weather.

The present invention is designed to solve the problems and the closed end of the conventional intake valve as described above, to promote the atomization of the fuel gas, to suppress the formation of adhesive on the valve surface and to reduce the emission of air pollutants It is an object to provide an intake valve of a gasoline engine.

The above object of the present invention is a gasoline engine, characterized in that in the intake valve consisting of a valve head and a valve stem, a hollow portion is formed inside one side thereof so that the center of gravity is moved by a predetermined eccentricity from a center line. By providing an intake valve of.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a view showing the operation relationship between the intake valve according to the present invention. According to this, the intake valve 20 according to the present invention is installed on the valve seat 21 to open and close, and the cam 22 is operated on the upper portion of the intake valve 20 for opening and closing. In addition, a spring 23 is provided for closing due to the automatic return of the intake valve 20.

The intake valve 20 is composed of a valve head 20a and a valve stem 20b, the valve stem 20b according to the present invention is formed so that a specific portion therein is hollowed out. In more detail, one side of the intake valve 20 is hollowed out so that the center of gravity of the intake valve 20 lies on the line of M 'which is separated by one eccentricity e to one side at the position of M, which is on the center line (on the center of gravity of the conventional valve). Therefore, as shown, the hollow portion B is formed, and the hollow portion B is formed to extend from the valve head 20a to a substantial portion of the valve, that is, the valve stem 20b. The hollow portion B at this time forms a closed space.

Intake valve 20 according to the present invention is formed as described above is formed to be integrated with the same material.

The intake valve 20 made as described above operates as follows due to the eccentric center of gravity.

Referring to FIG. 3, when the cam 22 is driven, the intake valve 20 is lowered and opened. At this time, the intake valve 20 is opened while rotating by the center of gravity eccentricity e. As a result, a mixture of fuel or the like adhered to the valve head 20a flows through the valve seal, and the engine oil and the like leaves the valve head 20a surface by centrifugal force. Or in this process, a swirl phenomenon occurs due to the rotation of the intake valve 20 in the mixer. The eddy effect of the mixer promotes atomization by mixing air and fuel evenly. In this way, soot can be reduced and the fuel economy of the engine can be improved.

When the intake valve 20 returns, the upper surface of the valve head 20a is seated on the valve seat 21 by the restoring force of the spring 23, thereby closing. At this time, the intake valve 20 is rotated to increase.

As described above, the gas intake valve of the gasoline engine according to the present invention has a hollow portion and has a center of gravity, and rotates itself when opening and closing by a cam, so that adhesives by a mixer or engine oil are not caught on the valve head surface. The eddy phenomenon of the mixer is generated to promote atomization. Therefore, excellent effects are provided such as reducing the production of air pollutants, improving the running performance in automobiles (especially during cold), and reducing the weight of engines.

Claims (2)

In the intake valve 20 composed of the valve head 20a and the valve stem 20b, a longitudinal opening portion B is formed inside one side thereof to move by a certain amount of eccentricity e from the center line to form a center of gravity. Intake valve of the gasoline engine, characterized in that the. The intake valve of a gasoline engine according to claim 1, wherein the hollow part (B) extends from one side of the valve head (20a) to one side of the valve stem (20b) and is a sealed space.