KR200384703Y1 - Apparatus for improving the combution efficiency of internal combustion engine - Google Patents

Abstract

The present invention relates to a device installed in a fuel supply line such as an internal combustion engine to increase combustion efficiency, and includes a front cover (10) having a fuel injection pipe (11) and a rear cover (20) having a fuel discharge pipe (22). Receiving means 30 coupled to the space portion 31 is formed therein; A distribution means (40) inserted into the space portion (12) of the front cover (10) and sliding in accordance with the suction pressure of the fuel and having a plurality of fuel discharge holes (41) formed on its circumferential surface; Vortex means 50 accommodated in the space portion 21 of the rear cover 20 is coupled to one or more fuel inlet plate 51 and the fuel vortex plate 52 interposed sequentially; Magnetizing means 60 inserted into the space 31 of the receiving means 30 to ionize the sucked fuel as well as to equip the circumferential surface with a coil spring 61 mounted thereon; It is wrapped in the circumferential surface of the front cover 10, the receiving means 30 and the rear cover 20, blocking means 70 for blocking the magnetism of the magnetization means 60, water or impurities containing fuel The thermal efficiency is maximized due to the atomization of fuel, which not only improves energy saving and fuel efficiency, but also contributes to the natural environment by minimizing smoke by maximizing the combustion efficiency of the internal combustion engine.

Description

Apparatus for improving the combution efficiency of internal combustion engine}

The present invention relates to a device installed in a fuel supply line, such as an internal combustion engine, to increase combustion efficiency. In particular, the fuel passes through the magnetic flux and the fuel is vortexed to increase the combustion efficiency due to improved ionization and atomization. The present invention relates to an apparatus for increasing the combustion efficiency of an internal combustion engine.

In general, the combustion reaction of an internal combustion engine such as an automobile is a method of atomizing by injecting into a liquid / phase fuel combustion chamber containing hydrocarbons. Since such a fuel has mutual attraction between negative and positive charges, mixing with oxygen in the combustion process is difficult. Incomplete combustion is not achieved smoothly.

Therefore, as a means for resolving incomplete combustion of fuel, a fuel saving device has been developed to promote fuel activation or ionization to increase combustion efficiency. The fuel saving device uses a method of preheating fuel to induce complete combustion and permanent magnets. The method of attaching a back is mainly used.

However, the fuel preheating method has the disadvantage that the installation cost is increased because the fuel preheating device must be additionally installed, and the device is complicated and not economical, and the energy consumption is high because the preheating device uses electricity as a heat source. There was a problem that the mounting is not made.

In addition, the method using a magnet is not able to maximize the effect because the distance and time that the fuel is subjected to the magnetic force is too short, and activates the fuel using the magnet, but the magnetization is insufficient due to the inflow rate of the fuel and the contact of the magnet. There was a problem that was not activated enough.

In addition, a method of activating water by using an electromotive force of metal by depositing a device generating electromotive force in fuel has been proposed, but such electromotive force generating device has a very weak electromotive force of the metal itself, which is not only suspicious in performance but also easy to operate. There was a problem of finite life due to contamination.

Accordingly, the present invention has been devised to solve the problems described above, and the internal combustion that allows the fuel to pass through the magnetic flux and the fuel vortex to increase the combustion efficiency according to the improvement of ionization and atomization The purpose is to provide an engine combustion efficiency increasing apparatus.

The present invention for achieving the above object is an apparatus for increasing the combustion efficiency of the fuel is configured between the fuel filter and the fuel injection device in the internal combustion engine, the front cover having a fuel injection pipe and the rear cover having a fuel discharge pipe Receiving means coupled to the space portion formed therein; A distribution means inserted into a space of the front cover and having a plurality of fuel discharge holes formed in a circumferential surface thereof while sliding according to the suction pressure of the fuel; Vortex means coupled to one or more fuel inlet plate and the fuel vortex plate in order to be accommodated in the space portion of the rear cover; Magnetization means inserted into the space portion of the accommodation means to ionize the sucked fuel as well as to equip its circumferential surface with a coil spring mounted thereon; It is wrapped in the circumferential surface of the front cover and the receiving means and the rear cover blocking means for blocking the magnetization of the magnetizing means;

Hereinafter, an embodiment according to the present invention will be described in detail.

1 is a view showing the installation position of the combustion efficiency increasing apparatus according to the present invention, Figure 2 is a cross-sectional view showing a combustion efficiency increasing apparatus according to the present invention, Figure 3 shows a combustion efficiency increasing apparatus according to the present invention As an exploded perspective view,

The internal combustion engine is provided between the fuel filter and the fuel injection device to increase the combustion efficiency of the fuel, the front cover 10 having the fuel injection pipe 11 and the rear cover 20 having the fuel discharge pipe 22 Receiving means 30 coupled to the space portion 31 formed therein; A distribution means (40) inserted into the space portion (12) of the front cover (10) and sliding in accordance with the suction pressure of the fuel and having a plurality of fuel discharge holes (41) formed on its circumferential surface; Vortex means 50 accommodated in the space portion 21 of the rear cover 20 is coupled to one or more fuel inlet plate 51 and the fuel vortex plate 52 sequentially interposed therebetween; Magnetization means (60) inserted into the space portion (31) of the accommodation means (30) to ionize the sucked fuel as well as to equip its circumferential surface with a coil spring (61); It is characterized in that the front cover 10 and the receiving means 30 and the surrounding surface of the rear cover 20 is made of a blocking means 70 for blocking the magnetism of the magnetization means 60.

First, the combustion efficiency increasing device 1 according to the present invention is installed in the fuel supply line between the fuel filter 2 and the fuel injection device 3 to ionize and atomize the fuel drawn from the fuel tank and supply it to the internal combustion engine. As it is, the ionizing through the magnetizing means and the atomization through the vortex means.

And the accommodating means 30 is a tubular enclosure for accommodating the various components of the combustion efficiency increasing apparatus 1, and the space part 31 is formed in the body along the longitudinal direction, and the screw thread is provided in the both ends of the inner wall. 32 is formed.

In addition, the front cover 10 is screwed to the front side of the receiving means 30 to supply fuel to the receiving means 30, while the fuel injection pipe 11 is mounted on one side thereof, the other A space portion 12 is formed in the side portion, and a spiral groove 13 is formed on the circumferential surface of the space portion 12 to be coupled with the thread 32.

In addition, the rear cover 20 is screwed to the rear side of the receiving means 30 to inject the fuel of the receiving means 30, while the space portion 21 is formed at one side thereof, the other side thereof. The fuel discharge pipe 22 is mounted to the spiral groove 23 coupled to the thread 32 on the circumferential surface of the space 21.

Of course, when the front cover 10 and the rear cover 20 are coupled to both ends of the receiving means 30, it is obvious that the space 31 is formed.

The dispensing means 40 is inserted into the space 12 of the front cover 10 and slides according to the suction pressure of the fuel. The distributing means 40 flows in one side of the dispensing unit 40 along the position corresponding to the fuel injection pipe 11. A hole 42 is formed, and a plurality of convex portions corresponding to the inner diameter of the space portion 12 are formed on the circumferential surface thereof.

In addition, the distribution means 40 has a plurality of fuel discharge holes 41 for injecting the fuel drawn from the fuel injection pipe 11 at a predetermined angle, preferably at a predetermined angle between the convex portions on the circumferential surface thereof. It is.

The vortex means 50 is inserted into the space 21 of the rear cover 20 and slides according to the discharge pressure of the fuel, and the fuel inlet plate 51 and the fuel swirl plate 52 are sequentially inserted. Are combined with each other.

In addition, the fuel inlet plate 51 has a spiral inlet 52a formed on the circumferential surface of the fuel swirl plate 52 while the fuel inlet 51a is formed at the center thereof, and in particular, the fuel injection plate 51 and the fuel swirl plate are formed. 52 are mutually coupled through the projection and the fitting groove.

The magnetizing means 60 is a magnetic material inserted into the space 31 of the receiving means 30 in the longitudinal direction to ionize the sucked fuel, and is provided to the distributing means 40 and the vortex means 50 at both ends thereof. Each vortex ring 80 which contacts and vortexes fuel is bonded.

Of course, the vortex ring 80, for spraying the fuel passing through the distribution means 40 and the vortex means 50 through the vortex process, while the supply port 82 is formed in the center of the plurality of circumferential surface Of course, two spiral grooves 81 are formed.

In addition, the magnetization means 60, the appearance is preferably formed in a "+" shape along the longitudinal direction in order to maximize the efficiency according to the ionization of the fuel, in particular, the coil spring to focus the magnetic field on the circumferential surface ( 61) is wound.

The blocking means 70 is a tubular enclosure that is wrapped in the front / rear covers 10 and 20 and the receiving means 30 to block the magnetization of the magnetization means 60, and the front / rear ends of the inner wall thereof. Threads are formed to be screwed to the coupling rings 15 and 25 of the covers 10 and 20.

In addition, the blocking means 70, by coating a flexible material, such as rubber on its circumferential surface can increase the cushioning force and durability.

Hereinafter, described in detail with reference to the accompanying drawings illustrating the operation according to the present invention.

First, when the combustion efficiency increasing device 1 is installed on the fuel supply line of the internal combustion engine, that is, at the rear side of the fuel filter 2 as shown in FIG. 1, the fuel in the fuel tank is driven by the suction pressure of the fuel injection device 3. Aspirated by the combustion efficiency increasing device (1).

At this time, the fuel discharge hole 41 in the state where the fuel sucked by the fuel injection pipe 11 of the front cover 10 is introduced at a pressure pressure via, for example, the inlet hole 42 of the distribution means 40. It is sprayed in all directions as it passes.

Then, the fuel injected by the distribution means 40 is dispersed through the spiral groove 81 of the vortex ring 80 into the space 31 of the receiving means 30, and then the magnetization means 60 As it passes through, it is ionized through the magnetic field.

Of course, since the magnetization means 60 is formed as a "+" shape as well as the magnetic field is concentrated through the coil spring 61, the ionization of the fuel injected into the space 31 of the receiving means 30 is Sprayed in an optimized state.

Then, the fuel ionized by the magnetizing means 60 is vortexed at a predetermined angle while passing through the spiral groove 81 of the vortex ring 80 attached to the rear end of the magnetizing means 60 of the rear cover 20. It is supplied to the vortex means (50).

At this time, the fuel supplied to the vortex means 50 is further vortexed while passing through the fuel inlet hole 51a of the fuel inlet plate 51 and the spiral groove 52a of the fuel vortex plate 52, thereby discharging the fuel discharge pipe 22. It is supplied to the internal combustion engine through.

Although the present invention has been described as in the above embodiments, the present invention is not necessarily limited to these embodiments, and various modifications can be made within the scope not departing from the technical spirit of the present invention, and particularly, as a heat material saver. If the 40 and the vortex means 50 and the magnetization means 60 is configured, it is natural to be included in the technical category of the present application.

As described above, according to the combustion efficiency increasing apparatus of the internal combustion engine according to the present invention, the fuel sucked from the fuel tank is ionized while passing through the magnetization means and the vortex means, and is supplied to the internal combustion engine in the form of particulates, thereby including fuel. Thermal efficiency is maximized due to the atomization of water or impurities, which not only improves energy saving and fuel efficiency, but also minimizes smoke due to maximizing combustion efficiency of the internal combustion engine, thereby contributing to the natural environment.

1 is a view showing the installation position of the combustion efficiency increasing apparatus according to the present invention,

2 is a cross-sectional view showing a combustion efficiency increasing apparatus according to the present invention,

3 is an exploded cross-sectional view showing a combustion efficiency increasing apparatus according to the present invention.

Explanation of symbols on the main parts of the drawings

1: combustion efficiency increasing device 10,20: front / rear cover

11,21: fuel injection / discharge pipe 30: accommodation means

40: distribution means 41: fuel discharge hole

50: vortex means 51: fuel inlet plate

52: fuel vortex plate 60: magnetization means

61: coil spring 70: blocking means

Claims (3)

It is a device to increase the combustion efficiency of the internal combustion engine fuel supply line, A receiving means 30 coupled between the front cover 10 having the fuel injection pipe 11 and the rear cover 20 having the fuel discharge pipe 22 and having a space 31 formed therein; A distribution means (40) inserted into the space portion (12) of the front cover (10) and sliding in accordance with the suction pressure of the fuel and having a plurality of fuel discharge holes (41) formed on its circumferential surface; Vortex means 50 accommodated in the space portion 21 of the rear cover 20 is coupled to one or more fuel inlet plate 51 and the fuel vortex plate 52 sequentially interposed therebetween; Magnetization means (60) inserted into the space portion (31) of the accommodation means (30) to ionize the sucked fuel as well as to equip its circumferential surface with a coil spring (61); An internal combustion engine comprising: a blocking means (70) which is wrapped in the circumferential surfaces of the front cover (10), the receiving means (30) and the rear cover (20) to block the magnetization of the magnetization means (60); Device for increasing combustion efficiency. According to claim 1, wherein the magnetizing means 60, the plurality of spiral grooves formed on the circumferential surface of the fuel swirl plate 52 for the fuel drawn into the fuel inlet hole (51a) of the fuel inlet plate (51) 52a) vortex through the combustion efficiency increasing apparatus of the internal combustion engine. 2. The internal combustion engine according to claim 1, wherein the magnetizing means (60) has a vortex ring (80) formed at both ends thereof in contact with the distributing means (40) and the vortex means (50) to vortex fuel. Combustion efficiency increasing device.