KR19980056250A - Vortex induction device in diesel engine combustion chamber - Google Patents

Abstract

The present invention relates to a combustion chamber of a diesel engine, and more particularly, by adjusting the vortex position of the vortex chamber in the combustion chamber of an indirect injection diesel engine, it is possible to efficiently control the vortex intensity, and thus the combustion gas in the vortex chamber is mainly controlled. The present invention relates to a combustion chamber vortex induction device of a diesel engine that improves combustion and improves engine performance by smoothly mixing combustion gas with air in a main combustion chamber when ejected into a combustion chamber.

Combustion chamber vortex induction apparatus of the diesel engine of the present invention is provided between the vortex chamber (1) and the main combustion chamber (2), the splitting table (10) having a connecting passage (11) and the splitting table (10). Including an actuator 12, a position sensor 13 for detecting the position of the piston (3) and the ECU (14) for operating the actuator 12 by a signal detected from the position sensor (13) Characterized in that made.

As a result, the vortex strength is effectively controlled, and when the combustion gas in the vortex chamber is ejected into the main combustion chamber, the combustion gas smoothly mixes with the air in the main combustion chamber to improve combustion and improve engine performance. Exert.

Description

Vortex induction device in diesel engine combustion chamber

The present invention relates to a combustion chamber of a diesel engine, and more particularly, by adjusting the vortex position of the vortex chamber in the combustion chamber of an indirect injection diesel engine, it is possible to efficiently control the vortex intensity, and thus the combustion gas in the vortex chamber is mainly controlled. The present invention relates to a combustion chamber vortex induction device of a diesel engine that improves combustion and improves engine performance by smoothly mixing combustion gas with air in a main combustion chamber when ejected into a combustion chamber.

Diesel engines are essentially indistinguishable from gasoline engines when it comes to the construction of major parts (cylinder heads, cylinder blocks, piston connecting assemblies, crankshafts, camshafts, valve mechanisms) that convert thermal energy into mechanical energy.

In the combustion process of fuel, however, gasoline engines compress air and fuel mixtures and ignite them with electrical sparks, whereas diesel engines inhale only air and compress it at a high compression ratio to make the temperature above 500-600 ℃. Is pressurized by the injection pump and injected into the cylinder by the injection nozzle, thereby causing self ignition (compression ignition). Therefore, diesel engines do not require electric ignition devices (distributors, ignition coils, high voltage cables, spark plugs, etc.) but require a fuel injection device consisting of an injection pump and injection nozzles.

In addition, the fuel uses diesel fuel etc. which have good self-ignition.

The combustion process of a diesel engine includes a first ignition delay period, which is a period from when fuel is injected into the combustion chamber to ignition, a second flame propagation period during which the fuel is ignited and exploded, and the injected fuel And a third post-combustion period, which is a period which is burned almost simultaneously with the injection, and a fourth post-combustion period, which is a period during which the fuel which does not burn during the direct combustion period is expanded.

Combustion chamber types of diesel engines are single chamber type, direct injection chamber type, and double type combustion chamber type, vortex chamber type, and air chamber type.

In the direct injection chamber type, the combustion chamber is formed by the unevenness of the cylinder head and the piston head, and the fuel is directly injected therein, and it is called the single chamber type because it consists only of the main combustion chamber.

The pre-combustion chamber has a combustion chamber located above the main combustion chamber formed between the piston and the cylinder head, and the injected fuel is combusted in the pre-combustion chamber to generate a high temperature and high pressure gas. Combustion chamber mixed and completely burned.

The vortex chamber type related to the present invention has a vortex chamber in a cylinder or cylinder head so that a strong vortex occurs in the vortex chamber during the compression stroke, and fuel is injected from the vortex chamber.

The fuel injected into the vortex chamber meets the air in strong swing motion, mixes quickly and is ignited and ejected into the main combustion chamber, where the unburned fuel meets the new air and burns.

The air chamber type is a combustion chamber in which an air chamber connected to the main combustion chamber is installed between the cylinder head and the piston head and fuel is injected directly into the main combustion chamber.

Several combustion chambers of this type must meet the following conditions.

In other words, the injected fuel should be completely burned in the shortest possible time, the average effective pressure should be high, the fuel consumption rate should be low, the combustion condition at high speed should be good, the maneuver should be easy, and the diesel knock should be low. .

Above the combustion chamber is an injection nozzle provided in the cylinder head.

Injection nozzle is a device that injects the high-pressure fuel sent from the injection pump into the combustion chamber in the form of fine mist.

The conditions for the atomization of the fuel sprayed by the injection nozzle should be good atomization (fog), large penetration, uniform distribution, uniformity of dispersion, constant injection rate, The nozzle flow coefficient must be accurate.

By the way, in particular, the vortex chamber formula related to the present invention is that the vortex chamber, which is a vortex chamber formed separately in the cylinder head, is in a fixed state in a constant direction of the main combustion chamber, so that efficient vortex generation cannot occur due to the lifting operation of the piston. There is a closure.

In other words, it is impossible to control the strength of the vortex according to the lifting operation of the piston, so that the mixing of the combustion gas in the vortex chamber and the air in the main combustion chamber is not performed efficiently. In this case, the combustion is incomplete and the engine performance is reduced. In addition to the deterioration, the emission of the exhaust gas is increased.

The present invention has been made to solve the conventional problems as described above, the object of the present invention is to adjust the vortex chamber of the vortex chamber position, so that the vortex strength is efficiently adjusted, and thus the combustion gas in the vortex chamber is mainly The present invention provides a combustion chamber vortex induction device of a diesel engine that improves combustion and improves engine performance by smoothly mixing combustion gas with air in a main combustion chamber when ejected into a combustion chamber.

Combustion chamber vortex induction apparatus of the diesel engine of the present invention for achieving the above object, the sensation zone is installed between the vortex chamber and the main combustion chamber, the actuator for moving the zonules, the sensor for detecting the position of the piston and the sensor detected from the sensor It characterized in that it comprises an ECU for operating the actuator by a signal.

According to the above characteristics, when the ECU operates the actuator by receiving the signal from the piston position sensor during the compression stroke of the piston, the actuator moves the splitter to the right to increase the vortex strength of the vortex chamber to atomize the fuel sprayed from the nozzle. To improve combustion in the vortex chamber, and when the piston is operated in response to the piston position sensor signal, when the ECU operates the actuator, the actuator moves the splitter to the left to eject the vortex chamber. Combustion is improved by promoting the mixing of combustion gases with the main combustion chamber air.

1 is a cross-sectional view showing a vortex induction device of the combustion chamber according to the present invention,

2 is a cross-sectional view showing the action of the vortex induction apparatus of the combustion chamber according to the present invention.

* Description of the symbols for the main parts of the drawings *

1: vortex chamber 2: combustion chamber

3: piston 10: basin

11: connecting passage 12: actuator

13: position sensor 14: ECU

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

1 is a cross-sectional view showing a vortex induction apparatus of the combustion chamber according to the present invention, Figure 2 is a cross-sectional view showing the action of the vortex induction apparatus of the combustion chamber according to the present invention.

As shown, the combustion chamber vortex induction device of the diesel engine according to the present invention is provided between the vortex chamber 1 and the main combustion chamber 2 and the bunker table 10 having a connection passage 11 formed therein, the bunker table 10 The ECU 14 which operates the actuator 12 by the actuator 12 for moving the actuator 12, the position sensor 13 for detecting the position of the piston 3, and the signal detected from the position sensor 13 Include.

By the combustion chamber vortex induction apparatus of such a configuration, the action in the compression stroke of the piston will first be described.

When the piston 3 reaches a top dead center, the compressor 14 receives a signal from the piston position sensor 13 to operate the actuator 12 during compression stroke.

The actuator 12 moves the splitter 10 to the right, so that the pressure of the main combustion chamber 2 is sprayed fuel of the vortex chamber 1 through the connecting passage 11 of the splitter 10. Vortex in the direction of the arrow to increase its vortex strength.

The fuel sprayed from the nozzle by the high vortex flow is atomized to improve combustion in the vortex chamber 1.

On the other hand, during the explosion stroke of the piston 3, the ECU 14 receives the signal from the piston position sensor 13 to operate the actuator 12 in the opposite direction.

That is, when the actuator 12 moves the splitting table 10 to the left side, the combustion gas ejected from the vortex chamber 1 flows in the direction of the arrow through the connecting passage 11 and flows into the main combustion chamber 2. The mixing with the air in the main combustion chamber 2 is promoted.

This improves the combustion in the main combustion chamber 2.

As described above, in the combustion chamber vortex induction device of the diesel engine of the present invention, the actuator moves between the vortex chamber and the main combustion chamber to move to the right during compression stroke. The vortex strength is increased to atomize the fuel sprayed from the nozzle to improve combustion in the vortex chamber, and during the explosion stroke, the actuator moves the splitter to the left to release the combustion gas and main combustion chamber air. To improve the combustion by promoting the mixing of the vortex, the vortex strength is effectively controlled so that when the combustion gas in the vortex chamber is ejected into the main combustion chamber, the combustion gas smoothly mixes with the air in the main combustion chamber to improve combustion. It is effective in improving the performance.

Although the invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that modifications and variations can be made within the spirit and scope of the invention, and such variations or modifications will belong to the appended claims. .

Claims (2)

Between the vortex chamber 1 and the main combustion chamber 2, a splitting table 10 having a connecting passage 11, an actuator 12 for moving the splitting table 10, and a piston 3 Combustion chamber vortex induction apparatus of the diesel engine, characterized in that it comprises a position sensor 13 for detecting the position and the ECU 14 for operating the actuator 12 by the signal detected from the position sensor 13 . The combustion chamber vortex induction apparatus according to claim 1, wherein the splitting table (10) is moved in the right direction during the compression stroke of the piston and moved in the left direction during the explosion stroke.