KR101640379B1 - An internal combustion engine exhaust gas recirculation and mixing improved output device - Google Patents

Abstract

The apparatus for mixing exhaust gas recirculation (EGR) gas and improving an output for an internal combustion engine having an EGR device. The apparatus for mixing EGR gas and improving an output for an internal combustion engine comprises: a distribution housing which is installed in an intake path and has a gas path and a gas inlet connected to the gas path to supply EGR gas to the gas path; a sleeve which is fixed to the inner diameter of the distribution housing and has multiple sleeve holes connected with the gas path; and a swirl inducing body which is arranged in the center of the sleeve and has multiple swirl inducing blades having gas outlets and gas inducing paths. Therefore, the present invention effectively controls the generation of nitrogen oxides by uniformly mixing the EGR gas with inhaled air and burning the mixture.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an internal combustion engine exhaust gas recirculation and a mixing improved output device,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an internal combustion engine recirculated exhaust gas mixing and power enhancing device, and more particularly, to a recirculating exhaust gas recirculation system for use in an exhaust gas recirculation (EGR) The present invention relates to an improved internal combustion engine recirculation exhaust gas mixing and power enhancement device capable of stabilizing pulsation and turbulence generated in an intake passage to reduce harmful exhaust gas and improve output.

As well known, harmful substances that cause pollution are generated and exhausted to the atmosphere through the exhaust gas during the burning of the mixer together with the start of the vehicle. Among them, nitrogen oxides (NOx) It is produced mainly by the reaction of nitrogen and oxygen. It is mainly produced at high temperature and is discharged at high load at high combustion temperature.

Therefore, an EGR device (Exhaust Gas Recirculation) for recirculating a part of the exhaust gas to the combustion chamber for the purpose of minimizing the emission of nitrogen oxide (NOx) and improving the emission of the exhaust gas is installed .

The recirculated exhaust gas plays an important role in the combustion process, so it is important to mix the gases evenly between the cylinders to be sucked into the combustion chamber, because if the deviation between the cylinders is large, the exhaust gas emitted from each cylinder is not constant It can not cope with exhaust gas regulation response.

1, the EGR apparatus includes an EGR valve 12 for sending a part of the exhaust gas exhausted from the exhaust manifold of the engine to the EGR cooler 10, an EGR cooler 10 for cooling the hot exhaust gas, And an exhaust gas recirculation pipe 14 extending from an outlet of the EGR cooler 10 is connected to an intake pipe 16 for supplying external intake air to the combustion chamber of the engine.

At this time, the intake pipe 16 is provided with a mixing mechanism 20, which is a structure disclosed in Japanese Laid-Open Patent Publication No. 2014-0052282.

However, since the mixing mechanism 20 has improved mixing effect compared to the conventional art, the exhaust gas introduced for recirculation is mainly distributed only around the inlet port into which the intake pipe 16 flows, so that the center of the circle of the intake pipe 16 It is difficult to mix with the externally sucked air that is perfluent, so that the problem is still mixed in a substantially uneven state.

This eventually leads to nonuniformity when supplied to the combustion chamber of the engine, which ultimately causes a reduction in output, and the combustion temperature of the combustion chamber can not be lowered due to nonuniform mixing, and thus there is little effect of suppressing the generation of nitrogen oxides.

In addition, in the intake passage, pulsation occurs in the overlap period in which intake and exhaust are performed at the same time, which also affects turbulence generation. In addition, not only the EGR exhaust gas is uniformly mixed but also suppresses the occurrence of pulsation and turbulence, Causing the engine output to drop.

As another example, there are registered patents No. 0820396, 0580684, and 2006-0058334, but the basic concept of the above-mentioned Patent Publication No. 2014-0052282 is not overcome and the problem of uneven mixing still remains.

As another example, although Patent No. 1084098 is disclosed, the tubular mixing nozzle, which is disclosed herein, lacks productivity and durability due to structural limitations, and thus has a problem that it is very difficult to commercialize.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems in the prior art, and it is an object of the present invention to provide an EGR gas injection system, Thereby improving the combustion efficiency and preventing the engine output from being lowered by maximizing the uniformity of the mixture, thereby improving the combustion efficiency of the internal combustion engine. Which has its main purpose.

In order to achieve the above object, the present invention provides an internal combustion engine equipped with an EGR device, comprising:
And a gas passage communicating with the gas passage to supply an EGR gas to the intake passage, the gas passage communicating with the gas passage so as to supply the EGR gas to the intake passage of the internal combustion engine, A distribution housing having a gas inlet formed therein;
A sleeve having a plurality of sleeve holes fixedly secured to an inner diameter of the distribution housing and communicating with the gas passage;
And a plurality of vortex guiding blades having a gas guiding flow passage for communicating the sleeve hole and the gas discharging port are formed around the sleeve, And a vortex derivative,
The vortex guiding blade is integrally fixed to the sleeve. One side surface forms an S-shaped curved surface so that the outside air flowing through the suction passage is influenced by lifting due to a speed difference to form a vortex, Is formed to have a shape that forms a curved surface of an arc shape,
The EGR gas is introduced into the exhaust passage and discharged through the gas outlet. The exhaust gas is discharged through the center of the intake passage. The introduced external air flows through the vortex induction vane while surrounding the EGR gas. And the exhaust gas recirculation exhaust gas mixing and output enhancing device is configured to be mixed while flowing.

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According to the present invention, the intake and recycle exhaust gases are uniformly mixed and burned, effectively suppressing nitrogen oxides generation, and stabilizing the pulsation and turbulence generated in the intake passages, thereby maximizing the combustion efficiency.

In addition, since the combustion efficiency is maximized, the fuel consumption can be reduced, the engine output can be improved, and the temperature in the mixing zone in the intake passage due to uniform mixing can be lowered so that the intake pipe can be made of reinforced plastic. The manufacturing cost can be remarkably reduced.

1 is an illustration of an internal combustion engine recirculated exhaust gas mixing apparatus according to the prior art.
2 is an exemplary perspective view of an internal combustion engine recirculated exhaust gas mixing and power enhancement device in accordance with the present invention.
3 is an exemplary exploded view of Fig.
Figure 4 is an exemplary partial cross-sectional view of Figure 2;
5 is a plan sectional view of Fig.
6 is an air flow diagram schematically illustrating a vortex generation process according to the present invention apparatus.

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

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

2 and 3, the internal combustion engine recirculation exhaust gas mixing and power enhancement device according to the present invention includes a cylindrical distribution housing 100. [

The distribution housing 100 is integrally formed at both ends thereof with a fixing flange 110. The distribution housing 100 is provided with a fixing flange 110 on the intake passage at a point where the mixing mechanism 20 is installed, .

4, the distribution housing 100 has a protruding portion 120 protruding in the circumferential direction at a central portion of the length between the fixing flanges 110, and the inside of the protruding portion 120, that is, (130) are formed.

Therefore, when recirculated exhaust gas, that is, EGR gas, flows into the gas passage 130, it is dispersed in the circumferential direction of the distribution housing 100.

A gas inlet 140 is formed in the protrusion 120 so that the gas inlet 140 communicates with the gas passage 130.

In addition, the recirculated exhaust gas, that is, the EGR gas, is piped so as to be recirculated through the outer circumferential surface of the distribution housing 100, in particular, through the gas inlet 140 formed in the protrusion 120,

In addition, although not shown, if the gas inlet 140 is provided with a connection flange structure, docking with the EGR gas recovery pipe can be smoothly and easily performed. However, such a structure can be variously modified and is optional, and therefore, the present invention is not limited thereto.

The distribution housing 100 may be integrally formed on the intake passage or may be disassembled and assembled using a flange.

On the other hand, the sleeve 200 is inserted into the inner diameter of the distribution housing 100.

At this time, it is preferable that the sleeve 200 is fitted and fixed in a forced fit manner, and a plurality of sleeve holes 210 are formed so as to correspond to the gas inlet 140.

A vortex induction vane 310 is integrally fixed to an outer circumferential surface of the vortex induction motor 300 in a circumferential direction.

Particularly, the tip of the vortex derivative 300 is rounded in a semispherical shape, and the vortex guiding vane 310 is fixed around the body. The vortex guiding vane 310 is not a simple vane type blade, S 'shape instead of a flat plate, and the other side is formed into a gentle arcuate shape.

Thus, the curved surface length of the arc shape is maintained longer than the length of the curved surface of the 'S' shape so that the lift is generated on the curved surface side of the arc shape. In the case of the airplane wing, Shaped curved surface so that air is naturally whirled and twisted at the point where the air flowing on both sides meet to generate a vortex.

In addition, the vortex guiding vanes 310 according to the present invention are not rotatable because they are not blowers, but have a fixed structure. The vortex guiding vanes 310 are fixed to the inner circumferential surface of the sleeve 200 So as to form an integral fixed structure.

At this time, a gas induction passage 320 is formed in the vortex induction vane 310 toward the center of the body of the vortex induction motor 300, and the gas induction passage 320 is disposed coinciding with the sleeve hole 210 .

In addition, a gas outlet 330 having a predetermined radius is formed in the body of the vortex current collector 300.

That is, the gas outlet 330 is configured to discharge the EGR gas only rearward, and is configured so as not to be discharged because it is blocked at the front.

5, the EGR gas introduced for recirculation through the gas inlet 140 flows into the gas guide passage 320 through the gas passage 130 and the sleeve hole 210, Since the gas is collected along the center of the gas discharge port 300 and then discharged along the gas discharge port 330, the gas is always injected and discharged through the center of the suction passage.

In addition, the gas inlet 140 and the sleeve hole 210 are communicated with each other but may be shifted from each other in order to further increase the uniformity of mixing.

The present invention having such a configuration has the following operational relationship.

The distribution housing 100, which is the main constituent of the internal combustion engine recirculation exhaust gas mixing and power enhancement apparatus according to the present invention, is installed on the intake passage, and the recirculated exhaust gas, that is, EGR gas is supplied to the outer peripheral surface of the distribution housing 100, And is piped to be recirculated through the inlet 140.

Accordingly, the outside air is radially dispersed through the curved stream-like leading end of the vortex conductor 300 and flows through the inside of the distribution housing 100.

At the same time, the recovered EGR gas is introduced into the gas passage 130 through the gas inlet 140 and then partly through the sleeve hole 210 to the gas induction passage 320 formed in the vortex induction vane 310 The remaining EGR gas is supplied to the gas induction passage 320 through the remaining sleeve holes 210 while moving along the circumferential direction of the distribution housing 100.

Then, the gas guide passage 320 is concentrated to the gas outlet 330, which is gathered at one point. While being pushed by the pressure in this state, the gas is guided to the gas outlet 330 through the gas outlet 330, .

Meanwhile, the introduced outside air flows through the vortex induction vane 310 and forms a swirling vortex, that is, a vortex that swings in a certain direction by the influence of the vortex guiding vane 310 having a unique shape and curvature.

As shown in FIG. 6, the vortex flows in the form of winding the EGR gas spouted through the center of the suction passage, so that the core becomes the EGR gas, and the spirally wound helix appears to be the outside air This is because the EGR gas also spreads radially outward from the core toward the outside of the core as the EGR gas gradually moves away from the EGR gas blowing end so that the air is spirally vigorously whirled, And mixed.

Therefore, the high-temperature EGR gas having a temperature of about 700 DEG C in the case of the diesel engine and about 400 DEG C in the case of the gasoline engine has to be reduced to 150-200 DEG C through the EGR cooler, It is possible to change the material of the intake manifold because the temperature is suddenly dropped to about 100 DEG C while uniformly mixing and the intake manifold is made of high-strength plastic to maintain the temperature enough to withstand.

In particular, this uniform mixing is a completely different concept from the conventional one, that is, a concept that has been mixed from the side rather than the core. In contrast, in the present invention, by switching from the core to the side, Uniform mixing can not be achieved due to the fast flow at the side of the EGR gas. However, in the present invention, the entire center-side can be perfectly uniformly mixed, and the generation of nitrogen oxides (NOx) It is possible to obtain an effect of improving the fuel consumption and increasing the output by increasing the combustion efficiency.

100: dispensing housing 200: sleeve
300: vortex derivative

Claims (3)

1. An internal combustion engine equipped with an EGR device, comprising:
And a gas passage communicating with the gas passage to supply an EGR gas to the intake passage, the gas passage communicating with the gas passage so as to supply the EGR gas to the intake passage of the internal combustion engine, A distribution housing having a gas inlet formed therein;
A sleeve having a plurality of sleeve holes fixedly secured to an inner diameter of the distribution housing and communicating with the gas passage;
And a plurality of vortex guiding blades having a gas guiding flow passage for communicating the sleeve hole and the gas discharging port are formed around the sleeve, And a vortex derivative,
The vortex guiding blade is integrally fixed to the sleeve. One side surface forms an S-shaped curved surface so that the outside air flowing through the suction passage is influenced by lifting due to a speed difference to form a vortex, Is formed to have a shape that forms a curved surface of an arc shape,
The EGR gas is introduced into the exhaust passage and discharged through the gas outlet. The exhaust gas is discharged through the center of the intake passage. The introduced external air flows through the vortex induction vane while wrapping the EGR gas. And the exhaust gas is mixed while flowing. delete delete

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