KR101312716B1 - Fuel activating device - Google Patents

Abstract

The present invention relates to an apparatus for activating a fluid fuel, the configuration of which has a cylindrical shape through which the inside penetrates, and both ends thereof have a tapered shape that gradually increases in diameter as they extend outward, and an inner pipe having a spiral groove formed on an inner circumferential surface thereof. And a magnetic force generating part including a plurality of permanent magnets disposed adjacent to each other in the longitudinal direction of the inner pipe on the outer circumferential surface of the inner pipe, and an annular silver plate of silver material positioned between the plurality of permanent magnets. And, respectively located at both ends of the inner pipe, the vortex induction unit for inducing vortex phenomenon to induce the atomization of fuel flowing into and out of the inner pipe; And, located between the inner pipe and the vortex induction unit An annular leak-proof plate for preventing leakage of fuel flowing through the pipe; and an outer circumference of the inner pipe Is formed in the wrap around a plurality of the permanent magnet to block the leakage of the magnetic force emitted from the permanent magnet to the outside, having a semi-cylindrical shape, having a receiving groove in which the permanent magnet is accommodated, but a plurality of The upper plate is formed with a coupling protrusion of the upper plate and the lower plate is to be engaged with the upper plate, has a semi-cylindrical shape, and has a receiving groove in which the permanent magnet is accommodated, the upper portion corresponding to the coupling protrusion A magnetic shield including a lower plate having a coupling groove formed therein; and the inner pipe, the magnetic generating unit, the vortex induction unit, the leakage preventing plate, and the magnetic shield are accommodated therein, and the inside penetrates the fuel inlet. And an outer pipe having an outlet through which the introduced fuel is discharged; and located at both ends of the outer pipe, respectively, As it characterized in that the a,; and, once the cover is in close contact with the vortex guide portion that prevents the exit of the vortex guide portion, the center is doedoe through, a threaded inner peripheral surface of the through center to form
In addition to inducing atomization and activation of the fluid fuel by the magnetic force of the permanent magnet, there is an effect capable of atomizing the fuel more efficiently by inducing the vortex phenomenon and the pulverization of the fuel circulated in the vortex induction unit.
In addition, since the fluid fuel is circulated in the spiral groove by the spiral groove formed in the inner pipe through which the fluid fuel is distributed, the residence time of the fluid fuel stays in the inner pipe is extended, so that Exposure to magnetic force emitted for a long time has the effect of increasing the atomization and activation efficiency of the fluid fuel by the magnetic force.
In addition, it is possible to maximize the atomization and activation efficiency of the fluid fuel by the magnetic force by precisely setting the polar arrangement and arrangement of the permanent magnets.
In addition, due to the far infrared rays emitted from the carbon layer located between the permanent magnets there is an effect to maximize the activation of the fluid fuel.

Description

Fluid activating device

The present invention relates to a fluid fuel activator, and more particularly, to induce atomization and activation of fluid fuel by the magnetic force of the permanent magnet, as well as to induce the vortex phenomenon and pulverization of the fluid fuel circulated in the vortex induction unit fluid The present invention relates to a fluid fuel activation device capable of atomizing fuel more efficiently.

In general, liquid fuels such as gasoline, diesel, or bunker C oil and (natural) gas fuels used in automobiles, ships or boilers are composed of aggregates of molecules. Because of the attraction force, there is a phenomenon that the atomization (particulation) does not occur, and the mixing with oxygen during combustion is not smooth, and the fuel is not only wasted due to incomplete combustion, but also increased the smoke.

On the other hand, in order to improve the incomplete combustion of the fluid fuel, if a magnetic field is provided inside the fuel supply line, the fluid fuel is activated and combustion is promoted. Fluid fuel activators of various structures have been proposed to reduce fuel consumption and reduce smoke by effects such as molecular arrangement of fluid fuel by magnets.

However, the conventional fluid fuel activator is a product that expects the atomization and activation of the fluid fuel, most of which depends only on the magnetic force of the permanent magnet, there was a problem that the efficiency of the fluid fuel is slightly lower than the magnetic force emitted from the permanent magnet alone. .

In addition, the conventional fluid fuel activator has a significant difference in the atomization and activation performance of the fluid fuel by magnetic force depending on the polar arrangement and arrangement of the permanent magnet, but there is no mention of this, and it is not even implied, which makes it difficult to apply. There was a problem.

The present invention has been proposed to solve the above problems, the purpose of which is to induce the atomization and activation of the fluid fuel by the magnetic force of the permanent magnet, as well as the vortex phenomenon and pulverization of the fluid fuel circulated in the vortex induction unit It is to provide a fluid fuel activation device that can induce the phenomenon to atomize the fluid fuel more efficiently.

In addition, since the fluid fuel is circulated in the spiral groove by the spiral groove formed in the inner pipe through which the fluid fuel is distributed, the residence time of the fluid fuel stays in the inner pipe is extended, so that It is to provide a fluid fuel activation device that can be exposed to the magnetic force emitted for a long time to increase the atomization and activation efficiency of the fluid fuel by the magnetic force.

In addition, to provide a fluid fuel activation device that can maximize the atomization and activation efficiency of the fluid fuel by the magnetic force by precisely setting the polar arrangement and arrangement of the permanent magnets.

In addition, the present invention provides a fluid fuel activation device for maximizing activation of fluid fuel due to far-infrared rays emitted from a carbon layer located between permanent magnets.

Fluid fuel activating device according to the present invention for achieving the above object has a cylindrical shape through which the inside is penetrated, both ends have a tapered shape that gradually increases in diameter as it extends outward, a spiral groove is formed on the inner peripheral surface And an inner pipe of the inner pipe, and a plurality of permanent magnets disposed adjacent to each other in the longitudinal direction of the inner pipe, and an annular silver plate of silver material positioned between the plurality of permanent magnets. A magnetic force generator; and located at both ends of the inner pipe, and a vortex induction unit for inducing vortex phenomena to atomize fuel flowing into and out of the inner pipe; and positioned between the inner pipe and the vortex induction unit. And an annular leak-proof plate which prevents leakage of fluid fuel that is distributed to the inner pipe; It is formed on the outer circumferential surface of the inner pipe to surround a plurality of the permanent magnet to block the leakage of the magnetic force emitted from the permanent magnet to the outside, has a semi-cylindrical shape, and has a receiving groove in which the permanent magnet is accommodated The lower plate has a plurality of coupling protrusions formed thereon, and is positioned at the lower portion of the upper plate to be engaged with the upper plate, having a semi-cylindrical shape, and having an accommodating groove in which the permanent magnet is accommodated. A magnetic shield including a lower plate on which a coupling groove corresponding to the coupling protrusion is formed; and the inner pipe, the magnetic generating portion, the vortex induction portion, the leakage preventing plate and the magnetic shield are accommodated therein, and the inside penetrates the fluid. An outer pipe having an inlet through which fuel is introduced and an outlet through which the introduced fluid fuel is discharged; and at both ends of the outer pipe, respectively. Being positioned, the inside is penetrated, one end is in close contact with the vortex induction part to prevent the separation of the vortex induction part, the center is penetrated, through the inner inner circumferential surface of the penetrated; the cover is formed; comprises a; do.

In addition, the plurality of permanent magnets of the magnetic force generating unit sequentially in the direction of the inlet side from which the fluid fuel is discharged from the outlet side of the outer pipe into which the fluid fuel flows, such as the first permanent magnet, the second permanent magnet, and the third permanent magnet. If you give consecutive numbers,

The first permanent magnet has an N pole formed inside, the S pole formed outside, the second permanent magnet has an S pole formed inside, the N pole formed outside, and the third permanent magnet has an N inside. The pole is formed, the S pole is formed on the outside, the fourth permanent magnet is the S pole is formed on the inner upper portion, the N pole is formed on the inner lower portion, the fifth permanent magnet is the N pole is formed on the inner upper portion, The S pole is formed in the inner lower portion, the S pole is formed in the upper portion of the sixth permanent magnet, the N pole is formed in the inner lower portion, and the N pole is formed in the upper portion of the seventh permanent magnet, and the S in the inner lower portion. The pole is formed, the eighth permanent magnet is formed with an S pole in the upper portion inside, the N pole is formed in the inner lower portion, the N-permanent magnet is formed with an N pole in the inner upper portion, and the S pole is formed in the inner lower portion. The 10th permanent magnet has an S pole formed at an upper portion thereof, an N pole is formed at a lower portion thereof, and the 11th permanent magnet has an S pole formed therein, and the outside thereof. The N pole is formed, the 12 permanent magnets are N poles therein are formed outside the S-pole is formed on, 13 the permanent magnet is an S pole is formed at the inner, doedoe disposed so that the N pole is formed on the outside,

The first, second, third, eleven, twelve, thirteen permanent magnets are one-piece circular magnets, and the fourth, fifth, six, seven, eight, nine, ten permanent magnets are circular magnets, which are located in the upper and lower portions. It is characterized by consisting of two semi-circular magnets.

In addition, one side or both sides of the silver plate of the magnetic force generating portion is characterized in that the annular carbon layer emitting far infrared rays is formed.

In addition, the vortex induction part is composed of a first body having a cylindrical shape penetrated therein, and a plurality of plate bodies formed in a semi-circular shape to the end toward the center of the first body in the first body, the plate body is In order to efficiently induce the vortex phenomena of the fluid fuel, the twisted vortex derivative and the vortex derivative, which are located on both sides of the vortex derivative, respectively, are formed so that the fuel is circulated inside the second body and the second body. It is composed of a plurality of flow holes to induce a pulverization phenomenon that causes the flow of fluid fuel to be pulverized into a plurality of flows, and the pulverized derivatives are firmly connected by interconnecting the pulverized derivatives respectively located on both sides of the vortex derivative It characterized in that it comprises a connecting bolt to be coupled.

In addition, at least one through hole is formed in the plate body of the vortex derivative.

As described above, according to the fluid fuel activator according to the present invention, as well as inducing atomization and activation of the fluid fuel by the magnetic force of the permanent magnet, as well as inducing the vortex phenomenon and pulverization of the fluid fuel circulated in the vortex induction unit fluid There is an effect to atomize the fuel more efficiently.

In addition, since the fluid fuel is circulated in the spiral groove by the spiral groove formed in the inner pipe through which the fluid fuel is distributed, the residence time of the fluid fuel stays in the inner pipe is extended, so that Exposure to magnetic force emitted for a long time has the effect of increasing the atomization and activation efficiency of the fluid fuel by the magnetic force.

In addition, it is possible to maximize the atomization and activation efficiency of the fluid fuel by the magnetic force by precisely setting the polar arrangement and arrangement of the permanent magnets.

In addition, due to the far infrared rays emitted from the carbon layer located between the permanent magnets there is an effect to maximize the activation of the fluid fuel.

1 is a perspective view of a fluid fuel activation device according to an embodiment of the present invention
2 is an exploded perspective view of the fluid fuel activation device shown in FIG.
3 is a cross-sectional view AA of the fluid fuel activation device shown in FIG.
Figure 4 is an enlarged cross-sectional view of the inner pipe and the magnetic force generating portion of the fluid fuel activation device shown in FIG.
5 is a perspective view of a vortex induction part of the fluid fuel activation device shown in FIG.
FIG. 6 is a view illustrating a distribution of magnetic force lines and far infrared rays of the fluid fuel activator shown in FIG. 1; FIG.
FIG. 7 is a view illustrating fuel passing through a vortex induction part of the fluid fuel activation device shown in FIG.
FIG. 8 is a view illustrating a fuel flowing into and out of the fluid fuel activator shown in FIG. 1; FIG.
9 is a view showing a separate connection port is connected to the fluid fuel activation device shown in FIG.
10 is a view showing a cover of the fluid fuel activation device according to another embodiment of the present invention

A fluid fuel activation device according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 to 10 show a fluid fuel activation device according to an embodiment of the present invention, Figure 1 is a perspective view of a fluid fuel activation device according to an embodiment of the present invention, Figure 2 is a fluid fuel shown in Figure 1 3 is an AA cross-sectional view of the fluid fuel activator shown in FIG. 1, FIG. 4 is an enlarged cross-sectional view of the inner pipe and the magnetic force generating portion of the fluid fuel activator shown in FIG. 1 is a perspective view showing a vortex induction unit of the fluid fuel activator shown in FIG. 1, FIG. 6 is a view showing the distribution of magnetic force lines and far infrared rays of the fluid fuel activator shown in FIG. 1, and FIG. 7 is shown in FIG. FIG. 8 is a view illustrating the passage of fuel through the vortex induction part of the fluid fuel activator. FIG. 8 is a diagram illustrating the inflow and discharge of fuel to the fluid fuel activator shown in FIG. 1, and FIG. City on A view showing how an extra connecting port connected to a fluid fuel activation device, Figure 10 shows a view showing the cover of the fluid fuel activation device according to another embodiment of the present invention.

As shown in the figure, the fluid fuel activation device 100 according to an embodiment of the present invention, the inner pipe 10, the magnetic force generating portion 20, the vortex induction portion 30, the leakage preventing plate 40 ), A magnetic shield 50, an outer pipe 60, and a lid 70.

As shown in FIGS. 2 to 4, the inner pipe 10 has a cylindrical shape penetrating the inside thereof, and both ends thereof have a tapered shape gradually increasing in diameter as they extend outward, and a spiral groove ( 11) is configured to be formed.

That is, due to the vortex phenomenon in which the fluid fuel introduced into the inner pipe 10 is swirled along the spiral groove 11, the particles of the fluid fuel become fine and at the same time the fluid fuel stays in the inner pipe 10. Since it is extended, the time to be exposed to the magnetic force emitted from the magnetic force generation unit 20 to be rearranged is long, so that the atomization and activation of the fluid fuel can be made efficiently.

2 to 4, the magnetic force generating unit 20 has a plurality of permanent magnets 21 disposed adjacent to each other in the longitudinal direction of the inner pipe 10 on the outer circumferential surface of the inner pipe 10. And, it is configured to include an annular silver plate 22 of the silver material positioned between each of the plurality of permanent magnets 21,

A plurality of permanent magnets 21 of the magnetic force generating unit 20 sequentially in the direction of the inlet 61 through which the fluid fuel is discharged from the outlet 62 side of the outer pipe 60 into which the fluid fuel is introduced. When numbers are continuously assigned to the permanent magnet 21a, the second permanent magnet 21b, and the third permanent magnet 21c, the first permanent magnet 21a has an N pole formed therein and an S pole outside thereof. The second permanent magnet 21b has an S pole formed therein, an N pole formed outside, and the third permanent magnet 21c has an N pole formed inside, and an S pole formed outside. The fourth permanent magnet 21d has an S pole formed in the upper portion thereof, an N pole formed in the lower portion thereof, and the fifth permanent magnet 21 e has an N pole formed in the upper portion thereof, and an S pole formed in the inner lower portion thereof. Is formed, the sixth permanent magnet 21f has an S pole formed in the upper portion of the inner portion, an N pole is formed in the inner lower portion thereof, and the seventh permanent magnet 21g has an N pole formed in the inner upper portion thereof, S Is formed, the eighth permanent magnet (21h) is the S pole is formed in the upper portion inside, the N pole is formed in the inner lower portion, the ninth permanent magnet (21i) is formed in the N upper pole, the inner lower portion The S pole is formed, the tenth permanent magnet 21j has an S pole formed in the upper portion of the inside, the N pole is formed in the lower portion of the inner portion, and the eleventh permanent magnet 21 S has an S pole formed therein, The N pole is formed, the twelfth permanent magnet 21l has an N pole formed therein, the S pole is formed outside, and the thirteenth permanent magnet 21m has an S pole formed therein, and the N pole outside. Is arranged to form,

The first, second, third, eleven, twelve, thirteen permanent magnets (21a, 21b, 21c, 21k, 21l, 21m) is composed of an integral circular magnet, and the fourth, five, six, seven, eight, nine, 10 permanent magnets (21d, 21e, 21f, 21g, 21h, 21i, 21j) are circular magnets, two semi-circular magnets are located in the upper and lower,

The polarities of the fourth, fifth, sixth, seventh, eighth, nineth, and tenth permanent magnets 21d, 21e, 21f, 21g, 21h, 21i, and 21j composed of two semi-circular magnets diverge to the inner pipe 10. In order to easily explain the flow of magnetic force lines, only the polarity of the inside of the permanent magnet 21 has been mentioned above, but it is obvious that a pole opposite to the inside of the pole is formed on the outside.

That is, the first, second, third, eleven, twelve, and thirteen permanent magnets 21a, 21b, 21c, 21k, and 21l of the inlet side and the outlet side in which the fluid fuel is introduced, as shown in FIG. The same poles face each other to induce activation of the fluid fuel by magnetic resonance, and each of the permanent magnets 21d and 21e located at the center of the fluid fuel distribution. 21f, 21g, 21h, 21i, and 21j) have different poles facing each other inside, while the fourth, sixth, eighth and tenth permanent magnets 21d, 21f, 21h and 21j are S-poles formed in the upper part of the The 5,7,9 permanent magnets 21e, 21g, 21i are formed to have an N pole formed in the upper portion thereof so that the flow direction of the magnetic lines of force is continuously changed, thereby inducing the activation of the fluid fuel by a magnetic field that continuously pushes and pulls the fluid fuel. In addition, there is an effect to maximize the atomization and activation efficiency of the fuel by the magnetic force.

Accordingly, the fluid fuel passing through the first, second, second, third, eleven, twelve, thirteen permanent magnets 21a, 21b, 21c, 21k, 21l, and 21m positioned at the inlet side and the outlet side at which the fluid fuel is introduced. Is not only atomized and activated by powerful magnetic force, but also the vortex vortex of fluid fuel is induced by the complicated magnetic field line blur, so fluid fuel is more effectively atomized and activated by physical action through magnetic force and vortex phenomenon. Be sure to

Here, the silver plate 22 can block the magnetic force passing between the permanent magnet 21 and the permanent magnet 21 to increase the density of the magnet and maintain the sanitary environment by the sterilization action of the silver material.

In addition, as shown in FIGS. 4 and 5 by forming an annular carbon layer 80 that emits far infrared rays on one side or both sides of the silver plate 22 of the magnetic force generating unit 20, the inner pipe ( The fluid fuel flowing through 10) may be further subdivided and activated by far-infrared rays emitted from the carbon layer 80 as well as the magnetic force emitted from the magnetic force generating unit 20 to induce efficient fluid fuel activation.

As shown in FIGS. 2, 3, and 5, the vortex flow guides 30 are positioned at both ends of the inner pipe 10, respectively, and the fluid fuel is introduced into and discharged from the inner pipe 10. To induce the vortex to atomize

The first body 31a having a cylindrical shape through which the inside penetrates, and a plurality of plate bodies 31b formed in a semi-circular shape so that ends thereof face the center of the first body 31a in the first body 31a. The plate body 31b is configured to be twisted vortex derivative 31 and lateral sides of the vortex derivative 31, respectively, in order to efficiently induce vortex phenomena of the fluid fuel, and has a cylindrical body. (32a) and a plurality of distribution holes (32b) are formed so that the fluid fuel flows in the second body (32a), the grinding to induce the grinding phenomenon to cause the flow of the fluid fuel to be broken into a plurality of flows It comprises a derivative 32 and a connecting bolt 33 for firmly bonding the grinding derivative 32 by interconnecting each of the grinding derivative 32 positioned on both sides of the vortex derivative 31. .

Here, as shown in FIG. 7, the fluid fuel flowing into the vortex induction part 30 firstly enters into a plurality of distribution holes 32b while colliding with the crushing derivative 32 and crashing into it. And whirled by the plate 31b formed in the vortex derivative 31 while passing through the vortex derivative 31, and further subdivided while passing through the pulverized derivative 32 again. 10) flows in or out.

That is, the vortex induction part 30 is located at both ends of the inner pipe 10, respectively, to induce the fluid fuel to be efficiently activated while undergoing the physical action of the inflow or outflow of the fluid fuel is finer → turning → finer. It works.

As shown in FIG. 5, the at least one through hole 34 is formed in the plate body 31b of the vortex derivative 31 of the fluid fuel activator 100 according to the embodiment of the present invention. The fluid fuel introduced into the 31 is pivoted by the plate body 31b and simultaneously flows into the through hole 34 formed in the plate body 31b to be subdivided (bubble), thereby maximizing activation of the fluid fuel.

As shown in FIGS. 2 and 3, the leakage preventing plate 40 has an annular shape and is located between the inner pipe 10 and the vortex induction part 30 and is distributed to the inner pipe 10. In order to prevent leakage of the fluid fuel, it is preferable to selectively use an O-ring or a gasket.

The magnetic shield 50 has a semi-cylindrical shape and has an accommodating groove 51a in which the permanent magnet 21 is accommodated, and a lower plate 51 having a plurality of coupling protrusions 51b formed therein. And, located in the lower portion of the upper plate 51 is engaged with the upper plate 51, has a semi-cylindrical shape, and has a receiving groove 52a in which the permanent magnet 21 is accommodated, It comprises a lower plate 52 is formed with a coupling groove (52b) corresponding to the coupling protrusion (51b).

That is, the magnetic shield 50 prevents the magnetic force emitted from the permanent magnet 21 accommodated therein from being leaked to the outside and is lost, so that the magnetic force emitted from the permanent magnet 21 is reduced to the inner pipe ( 10, the fluid fuel circulated in the inner pipe 10 can be efficiently activated by magnetic force.

Here, the magnetic shield 50 is formed of a material such as pure iron, iron, and silicon steel sheet having excellent magnetic permeability, of course, to facilitate the shielding of the magnetic force.

1 to 3, the outer pipe 60 includes the inner pipe 10, the magnetic force generating unit 20, the vortex induction unit 30, and the leakage preventing plate 40 therein. To be received, the inside is penetrated, and is formed to have an inlet 61 through which the fluid fuel is introduced and an outlet 62 through which the introduced fluid fuel is discharged.

As shown in Figures 1 to 3, the cover 70 is located at both ends of the outer pipe 60, one end is in close contact with the vortex induction portion 30 of the vortex induction portion 30 To prevent the separation, the center is penetrated, but the threaded 71 is formed on the inner circumferential surface of the penetrated, it is preferable that the cover 70 is welded and coupled to the outer pipe 60 to have a rigid structure.

Here, the screw 71 of the cover 70 is usually fastened to the fuel pipe or hose (2) through which fluid fuel flows to allow fluid fuel to flow into or out of the fluid fuel activation device 100 of the present invention. In general, the fuel pipe or the hose 2 has a variety of sizes and coupling structures, and as shown in FIG. 9, the cover 70 includes a connection port 1 that can be suitably connected to the fuel pipe or the hose 2. It is preferable to be used by fastening to the screw thread 71 of.

In addition, as shown in FIG. 10, the inside of the cover 70 penetrates and may be used as a structure in which a screw thread 72a is formed on an outer circumferential surface of the connecting protrusion 72 protruding from the center.

Fluid fuel activator 100 according to an embodiment of the present invention made of the above components not only induces the activation and atomization of fuel by the magnetic force of the magnetic force generating portion 20, the carbon layer 80 By inducing the activation and atomization of the fluid fuel due to the physical action by the far-infrared rays and the vortex induction unit 30, which is initiated in the more efficient pursuit of the activation and atomization of the fluid fuel to improve the combustion efficiency of the heat engine device energy utilization efficiency In addition to increasing the energy consumption, it is possible to reduce the amount of waste gas and soot generated by unstable combustion, thereby contributing to the environmental protection of atmospheric air.

Fluid fuel activator 100 according to an embodiment of the present invention having the configuration as described above acts as follows.

First, as shown in FIG. 8, when the fluid fuel flows through the inlet 61 side of the outer pipe 60, the fluid fuel becomes finer → turns → while passing through the vortex induction unit 30 as shown in FIG. 7. Through the physical action of micronization, the fluid fuel is efficiently activated.

Then, as shown in FIG. 8, the fluid fuel passing through the vortex induction part 30 flows into the inner pipe 10 and is rotated along the spiral groove 11 of the inner pipe 10. At this time, the activation and atomization of the fluid fuel is induced through the magnetic force provided by the magnetic force generating unit 20, as shown in FIG.

The fluid fuel that has passed through the inner pipe 10 is guided to be further activated and atomized while passing through the vortex induction part 30 again.

Through the above process, the fluid fuel efficiently activated and atomized is supplied to the heat engine device and combusted with excellent combustion efficiency.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. You will understand the point. It goes without saying that variations can be made by those skilled in the art without departing from the spirit of the present invention. Accordingly, the scope of claim of the present invention is not limited within the scope of the detailed description, but will be defined by the following claims and technical ideas thereof.

1. Connection port 2. Hose
10. Inner pipe 11. Spiral groove
20. Magnetic generator 21. Permanent magnet
21a. First permanent magnet 21b. 2nd permanent magnet
21c. Third Permanent Magnet 21d. 4th permanent magnet
21e. Fifth Permanent Magnet 21f. 6th permanent magnet
21g. 7th permanent magnet 21h. 8th permanent magnet
21i. 9th permanent magnet 21j. 10th permanent magnet
21k. Eleventh Permanent Magnet 21l. 12th permanent magnet
21m. The thirteenth permanent magnet 22. Silver plate
30. Vortex induction part 31. Vortex derivative
31a. First body 31b. Plate
32. Crushed derivatives 32a. The second body
32b. Distribution hole 33. Connecting bolt
40. Leak-proof plate 50. Magnetic shield
51. Tops 51a, 52a. Acceptance home
51b. Coupling protrusion 52. Bottom plate
52b. Coupling groove 60. Outer pipe
61.Inlet 62.Outlet
70. Covers 71, 72a. Thread
72. Connecting projection 80. Carbon layer
100. Fluid Fuel Activator

Claims (5)

In the fluid fuel activation device for activating the fluid fuel to facilitate combustion by using the magnetic force of the permanent magnet,
An inner pipe 10 having a cylindrical shape penetrated therein, and both ends having a tapered shape gradually increasing in diameter as it extends outward, and an inner pipe 10 having a spiral groove 11 formed on an inner circumferential surface thereof;
Silver material positioned between the plurality of permanent magnets 21 and the plurality of permanent magnets 21 disposed adjacent to each other in the longitudinal direction of the inner pipe 10 on the outer circumferential surface of the inner pipe 10. A magnetic force generating portion 20 including an annular silver plate 22;
A vortex induction unit (30) positioned at both ends of the inner pipe (10), for inducing vortices to atomize the fluid fuel flowing into and out of the inner pipe (10);
An annular leakage preventing plate (40) positioned between the inner pipe (10) and the vortex induction part (30) to prevent leakage of the fluid fuel circulated to the inner pipe (10);
It is formed on the outer circumferential surface of the inner pipe to surround a plurality of the permanent magnet to block the leakage of magnetic force emitted from the permanent magnet to the outside,
The upper plate 51 has a semi-cylindrical shape and has a receiving groove 51a in which the permanent magnet 21 is accommodated, and a plurality of engaging protrusions 51b are formed at the lower portion of the upper plate 51. It is located in the lower portion is engaged with the upper plate 51, has a semi-cylindrical shape, and has a receiving groove (52a) in which the permanent magnet 21 is accommodated, the upper portion corresponding to the coupling projection (51b) A magnetic shield 50 including a lower plate 52 on which coupling grooves 52b are formed;
The inner pipe 10, the magnetic force generating unit 20, the vortex induction unit 30, the leakage preventing plate 40, and the magnetic shielding unit are accommodated therein, and penetrate the inside, and fluid fuel flows in. An outer pipe 60 having an inlet 61 and an outlet 62 through which the introduced fluid fuel is discharged; And
Being located at both ends of the outer pipe 60, one end is in close contact with the vortex induction part 30 to prevent the separation of the vortex induction part 30, the center is penetrated, but the thread is formed on the inner center circumferential surface through A cover 70, which is formed 71; fluid fuel activation device comprising a.
The method of claim 1,
A plurality of permanent magnets 21 of the magnetic force generating unit 20 sequentially in the direction of the inlet 61 through which the fluid fuel is discharged from the outlet 62 side of the outer pipe 60 into which the fluid fuel is introduced. If numbers are continuously given to the permanent magnet 21a, the second permanent magnet 21b, and the third permanent magnet 21c,
The first permanent magnet 21a has an N pole formed therein and an S pole formed outside thereof.
The second permanent magnet 21b has an S pole formed therein and an N pole formed outside thereof.
The third permanent magnet 21c has an N pole formed therein and an S pole formed outside thereof.
The fourth permanent magnet 21d has an S pole formed at an upper portion thereof, an N pole is formed at an inner lower portion thereof, and the fifth permanent magnet 21e has an N pole formed at an upper portion thereof, and an S pole formed at an inner lower portion thereof. The sixth permanent magnet 21f has an S pole formed at an upper portion thereof, an N pole is formed at an inner lower portion thereof, and the seventh permanent magnet 21g has an N pole formed thereon at an upper portion thereof, and an S pole at an inner lower portion thereof. Is formed, the eighth permanent magnet (21h) is the S pole is formed in the upper portion inside, the N pole is formed in the inner lower portion, the ninth permanent magnet (21i) is formed in the N upper pole, the inner lower portion S pole is formed, the tenth permanent magnet (21j) is the S pole is formed in the upper upper portion, the N pole is formed in the inner lower portion,
The 11th permanent magnet (21k) is the S pole is formed inside, the N pole is formed outside,
The 12th permanent magnet 21l has an N pole formed therein and an S pole formed outside thereof.
The 13th permanent magnet (21m) is disposed so that the S pole is formed inside, the N pole is formed outside,
The first, second, third, eleven, twelve, thirteen permanent magnets (21a, 21b, 21c, 21k, 21l, 21m) are integral circular magnets, and the fourth, fifth, sixth, seventh, eighth, nineth, and tenth permanent magnets. The magnet (21d, 21e, 21f, 21g, 21h, 21i, 21j) is a circular magnet, the fluid fuel activation device characterized in that the two semi-circular magnets are located in the upper and lower parts.
The method of claim 1,
One side or both sides of the silver plate 22 of the magnetic force generating portion 20 is a fluid fuel activator, characterized in that the annular carbon layer 80 is formed to emit far infrared rays.
The method of claim 1,
The vortex induction part 30,
The first body 31a having a cylindrical shape through which the inside penetrates, and a plurality of plate bodies 31b formed in a semi-circular shape so that ends thereof face the center of the first body 31a in the first body 31a. The plate body 31b includes a vortex derivative 31 which is twisted in order to efficiently induce vortex phenomena of the fluid fuel,
Located on both sides of the vortex derivative 31, the second body 32a having a cylindrical shape, and a plurality of flow holes 32b formed to allow fluid fuel to flow inside the second body 32a. And a pulverizing derivative 32 which is configured to induce a pulverization phenomenon to pulverize the flow of the fluid fuel into a plurality of flows;
Fluid fuel characterized in that it comprises a connecting bolt 33 for connecting the grinding derivatives 32 respectively located on both sides of the vortex derivative 31 so that the grinding derivatives 32 are firmly bonded. Activation device.
5. The method of claim 4,
At least one through hole (34) is formed in the plate body (31b) of the vortex derivative (31).

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