KR101751919B1 - Fuel activating device which uses the magnetism and far infrared ray - Google Patents

Abstract

The present invention relates to a fluid fuel activating apparatus for activating a fluid fuel so as to facilitate combustion by using a magnetic force of a permanent magnet, and more particularly to a fluid fuel activating apparatus which includes an upper case, a lower case, a magnetic force generating portion, a magnetic force shielding portion, . The upper case has a receiving space therein, and an upper lid is formed on the upper case to determine opening and closing of the receiving space. The lower case is located at a lower portion of the upper case, has a receiving space therein, and a lower lid is formed at the lower portion to determine opening and closing of the receiving space. The magnetic force generating portion includes a first magnetic force portion formed in a lower portion of the upper case and made of a plurality of permanent magnets and a second magnetic force portion disposed in an upper portion of the lower case and made of a plurality of permanent magnets. The magnetic force shielding portion is embedded in the upper and lower cases, respectively. The magnetic force shielding portion includes a first plate that receives permanent magnets therein and prevents magnetic force emitted from the permanent magnets from being emitted to the outside, And a second plate for preventing the magnetic force emitted from the permanent magnet from being released to the outside. The base plate is positioned below the magnetic shielding portion to prevent the permanent magnet housed in the magnetic shielding portion from escaping. The locking device is formed on both sides of the upper case and the lower case so that the upper and lower cases are mutually bound so that the fuel hose inserted into the insertion groove formed in the upper and lower cases is stably fixed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a fluid fuel activating device using a magnetic force and a far-

The present invention relates to a fluid fuel activating apparatus using a magnetic force and a far infrared ray, more specifically, to inducing atomization and activation of fluid fuel by magnetic force of a permanent magnet, And more particularly, to a fluid fuel activating apparatus using a magnetic force and a far-infrared ray, which can maximize the atomization and activation of the fluid fuel due to the far-infrared rays.

Generally, liquid fuel such as gasoline, diesel oil or Bunker C oil used in automobiles, ships or boilers, and (natural) gaseous fuels are composed of aggregates of molecules. Fluid fuel, which is an aggregate of these molecules, Because of the phenomenon that the particulate matter is not operated due to the action of gravity, mixing with oxygen during combustion is incomplete and incomplete combustion causes not only the waste of fuel but also the increase of soot.

On the other hand, in order to improve the incomplete combustion of the fluid fuel, when a magnetic field is applied inside the fuel supply line, the fluid fuel is activated and the combustion is promoted. Various structures of fluid fuel activating devices have been proposed which reduce the fuel and reduce the soot by the effect of the molecular alignment of the fluid fuel by the magnet.

However, the conventional fluid fuel activating device is a product which expects atomization and activation of the fluid fuel depending largely on the magnetic force of the permanent magnet, and the magnetic force emitted from the permanent magnet is somewhat inefficient to activate the fluid fuel .

In addition, in the conventional fluid fuel activating apparatus, the atomization and activation performance of the fluid fuel due to the magnetic force remarkably varies depending on the polarity arrangement and arrangement of the permanent magnets, but there is no mention of it and it is difficult to put the fluid fuel into practical use There was a problem.

In addition, the conventional fluid fuel activating apparatus cuts the fuel hose through which the fluid fuel flows to mount the fluid fuel activating apparatus. However, this is because the airtightness is incomplete at the portion where the fuel hose and the fluid fuel activating apparatus are connected, There is a problem that it causes a safety accident.

Open Patent Publication No. 10-2012-0135981 (published Dec. 18, 2012)

The present invention has been proposed in order to solve the above-mentioned problems, and it is an object of the present invention to induce atomization and activation of fluid fuel by magnetic force of a permanent magnet, Which can maximize the atomization and activation of the fluid fuel due to the far-infrared rays.

It is another object of the present invention to provide a fluid fuel activating apparatus using a magnetic force and a far-infrared ray, which can maximize the atomization and activation efficiency of the fluid fuel by the magnetic force by precisely setting the polarity arrangement and arrangement of the permanent magnets.

In addition, since the fuel hose can be easily detached and attached to the outer circumferential surface of the fuel hose, it is possible to prevent leakage of fuel, which may occur in a structure in which a conventional fluid fuel activating device is installed, And a fluid fuel activating device using magnetic force and far infrared rays.

According to an aspect of the present invention, there is provided an apparatus for activating a fluid fuel using magnetic force and far-infrared rays, the apparatus having a receiving space therein, an upper lid formed at an upper portion thereof for determining opening and closing of the receiving space, An upper case formed with a plurality of recesses and protrusions for preventing slippage from being formed on the lower surface formed with the insertion grooves, a lower space located below the upper case, having a receiving space therein, A lower case having a plurality of recesses for preventing slippage formed on an upper surface of the upper surface of the lower case; A first magnetic portion formed of a plurality of permanent magnets, and a second magnetic portion disposed in an upper portion of the lower case A magnetic force generating part including a second magnetic force part composed of a plurality of permanent magnets, and a magnetic force generating part embedded in the upper and lower cases, respectively, and having a "C" shape, A first plate for preventing a magnetic force emitted from the magnet from being emitted to the outside, and a second plate disposed on both side surfaces of the first plate and for preventing a magnetic force, which is emitted from the permanent magnet, A magnetic shield disposed at a lower portion of the magnetic force shield to prevent the permanent magnet from being separated from the magnetic force received by the magnetic shield; And a locking device for mutually binding the upper and lower cases so that the fuel hose inserted into the formed insertion groove is stably fixed. .

The first magnetic portion of the magnetic force generating portion is composed of three permanent magnets, and the three permanent magnets are connected to the first permanent magnet, the second permanent magnet and the third permanent magnet in the flow direction in which the fuel flows in the fuel hose The first permanent magnets are disposed so as to have an S pole close to the fuel hose and the second permanent magnets are disposed so as to have N poles close to the fuel hose, Is disposed so that the lower portion closely contacting the fuel hose has an S pole,

The second magnetic portion of the magnetic force generating portion is composed of three permanent magnets, and the three permanent magnets are numbered as a fourth permanent magnet, a fifth permanent magnet, and a sixth permanent magnet in the flow direction in which the fuel flows in the fuel hose The fifth permanent magnets are disposed so as to have an N pole close to the fuel hose, and the sixth permanent magnets are disposed so as to have an S pole on the upper side in close contact with the fuel hose, And the upper portion closely contacting the hose has an S pole,

Wherein the first, second and third permanent magnets of the first magnetic force portion are disposed so as to oppose to the fourth, fifth and sixth permanent magnets of the second magnetic force portion, respectively, so that the first and fourth permanent magnets, And the third and sixth permanent magnets are disposed so as to face each other with the same pole, and a shielding plate of a nonmagnetic material for shielding magnetic force is provided between the permanent magnets and the permanent magnets of the first and second magnetic force portions, .

The apparatus may further include a seventh permanent magnet stacked on the second permanent magnet of the first magnetic force portion and an eighth permanent magnet stacked on the fifth permanent magnet of the second magnetic force portion,

The seventh permanent magnets are disposed so that the lower portion closely contacting the second permanent magnets has N poles, and the eighth permanent magnets are disposed so that the upper portion closely contacting the fifth permanent magnets has N poles, And a more powerful magnetic force is emitted from the second magnetic portion.

Further, a carbon plate for emitting far-infrared rays is formed between the inner surface of the magnetic force shielding portion, one side or both sides of the shield plate, between the second and third permanent magnets, and between the fifth and eighth permanent magnets .

In addition, a silver plate made of silver is formed on one side or both sides of the carbon plate.

In addition, the inner space of the upper and lower cases may further include germanium activated carbon which emits anion.

As described above, according to the fluid fuel activating apparatus using the magnetic force and the far-infrared ray according to the present invention, not only the atomization and activation of the fluid fuel by the magnetic force of the permanent magnet can be induced, and the carbon plate located between the permanent magnets, It is possible to maximize the atomization and activation of the fluid fuel due to the far-infrared rays.

In addition, the polarity arrangement and arrangement of the permanent magnets can be precisely set, thereby maximizing the atomization and activation efficiency of the fluid fuel by the magnetic force.

In addition, since the fuel hose can be easily detached and attached to the outer circumferential surface of the fuel hose, it is possible to prevent leakage of fuel, which may occur in a structure in which a conventional fluid fuel activating device is installed, It is effective.

1 is a perspective view of a fluid fuel activating apparatus using a magnetic force and a far-infrared ray according to an embodiment of the present invention;
2 is an exploded perspective view of the fluid fuel activating apparatus using the magnetic force and far-infrared rays shown in FIG. 1;
3 is an AA cross-sectional view of the fluid fuel activating apparatus using the magnetic force and far-infrared rays shown in FIG. 1;
FIG. 4 is a BB sectional view of the fluid fuel activating apparatus using the magnetic force and far-infrared rays shown in FIG. 1;
FIG. 5 is a view showing the magnetic force lines of the magnetic force generating portion of the fluid fuel activating device using the magnetic force and far-infrared rays shown in FIG. 1, the far infrared rays of the carbon plate, and the anions of the germanium activated carbon.

A fluid fuel activating apparatus using a magnetic force and a far infrared ray according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a fluid fuel activating apparatus using a magnetic force and a far-infrared ray according to an embodiment of the present invention, FIG. 1 is a perspective view of a fluid fuel activating apparatus using a magnetic force and far infrared rays according to an embodiment of the present invention, Fig. 2 is an exploded perspective view of the fluid fuel activating apparatus using the magnetic force and the far-infrared ray shown in Fig. 1, Fig. 3 is an AA sectional view of the fluid fuel activating apparatus using the magnetic force and far infrared rays shown in Fig. FIG. 5 is a graph showing the relationship between the magnetic force lines of the magnetic force generating portion of the fluid fuel activating device using the magnetic force and the far infrared ray, the far infrared rays of the carbon plate, and the anions of the germanium activated carbon, And the flow of the fluid fuel, respectively.

As shown in the drawing, a fluid fuel activating apparatus 100 using a magnetic force and a far infrared ray according to an embodiment of the present invention includes an upper case 10, a lower case 20, a magnetic force generating unit 30, A magnetic force shielding portion 40, a base plate 50, and a locking device 60. [

As shown in FIGS. 1 to 4, the upper case 10 has a receiving space 11 therein, and an upper lid 12 is formed on the upper case 10 to determine the opening and closing of the receiving space 11, And a plurality of concavities and convexities 15 for preventing slippage are formed on a lower surface of the semicircular-shaped insertion groove 14 on which the insertion groove 14 is formed.

1 to 4, the lower case 20 is located at a lower portion of the upper case 10, has a receiving space 21 therein, and a lower lid 22 is formed at a lower portion thereof A semi-circular-shaped insertion groove 24 is formed in a longitudinal direction at the upper portion of the accommodation space 21, and a plurality of uneven portions 25 for preventing slippage are formed on the upper surface of the insertion groove 21 .

4, the upper and lower cases 10 and 20 are coupled to each other through the locking device 60 to be hugged, and the insertion grooves 14 and 15 of the upper and lower cases 10 and 20, 24 through which the fuel hose 1, through which the fluid fuel flows, passes. At this time, the fuel hose 1 is firmly press-coupled to the fuel hose 1 by the plurality of protrusions 15 and 25 formed on the upper and lower surfaces of the upper and lower cases 10 and 20, 100 can be prevented from slipping or turning relative to the fuel hose 1 in advance.

The lids 12 and 22 of the upper and lower cases 10 and 20 of the fluid fuel activating apparatus 100 using magnetic and far infrared rays according to the embodiment of the present invention are fixedly coupled through the bolts 2, Of course not.

2 to 4, the magnetic force generating unit 30 is located in the lower part of the upper case 10 and includes a first magnetic force part 32 composed of a plurality of permanent magnets 31, And a second magnetic portion (34) located at an upper portion inside the lower case (20) and composed of a plurality of permanent magnets (33)

The first magnetic force part 32 of the magnetic force generating part 30 is constituted by three permanent magnets 31 and the three permanent magnets 31 are arranged in the flow direction in which the fuel flows in the fuel hose 1 When the first permanent magnets 31a, the second permanent magnets 31b and the third permanent magnets 31c are numbered, the first permanent magnet 31a has the S pole And the second permanent magnet 31b is arranged so as to have a lower N pole close to the fuel hose 1 and the third permanent magnet 31c is disposed so as to have a lower portion close to the fuel hose 1 S pole,

The second magnetic force part 34 of the magnetic force generating part 30 is constituted by three permanent magnets 33 and the three permanent magnets 33 are arranged in the flow direction in which the fuel flows in the fuel hose 1 When the fourth permanent magnets 33a, the fifth permanent magnets 33b and the sixth permanent magnets 33c are given numbers, the fourth permanent magnets 33a are arranged such that the upper end of the fourth permanent magnet 33a, which is in close contact with the fuel hose 1, And the fifth permanent magnet 33b is disposed so as to have an N pole close to the fuel hose 1 and the sixth permanent magnet 33c has an upper portion closely contacting the fuel hose 1 S poles,

The first, second and third permanent magnets 31a, 31b and 31c of the first magnetic portion 32 are respectively connected to the fourth, fifth and sixth permanent magnets 33a, 33b and 33c of the second magnetic portion 34, And the first and fourth permanent magnets 31a and 33a and the second and third permanent magnets 31b and 33b and the third and sixth permanent magnets 31c and 33c have the same polarity And between the permanent magnets 31 and 33 and the permanent magnets 31 and 33 of the first and second magnetic force portions 32 and 34, The shielding plate 35 is positioned.

Here, the shield plate 35 has an effect of increasing the density of the magnets by blocking the passage of magnetic force between the permanent magnets 31 and 33 and the permanent magnets 31 and 33.

That is, the first and fourth permanent magnets 31a and 33a of the first and second magnetic force portions 34 and 33 of the magnetic force generating portion 30 and the first and second permanent magnets 31a and 33a of the magnetic force generating portion 30, Since the second and third permanent magnets 31b and 33b and the third and sixth permanent magnets 31c and 33c are disposed to face each other with the same polarity, the activation of the fluid fuel by magnetic resonance The fluid fuel is induced to vortex due to the blurring of the complicated magnetic force in which the magnetic forces provided by the first and second magnetic force portions 32 and 34 cross each other, It is activated more efficiently by the physical action through the vortex phenomenon as well as the magnetic force.

2 to 4, a seventh permanent magnet 31d which is stacked on the second permanent magnet 31b of the first magnetic force part 32 and a sixth permanent magnet 31d which is stacked on the second permanent magnet 31b of the first magnetic force part 32, And an eighth permanent magnet (33d) stacked on the fifth permanent magnet (33b), wherein the seventh permanent magnet (31d) is disposed so that the lower portion closely contacting the second permanent magnet (31b) The eighth permanent magnet 33d is disposed such that the upper portion thereof closely contacting the fifth permanent magnet 33b has an N pole so that a stronger magnetic force is generated in the first and second magnetic force portions 32 and 34 So as to maximize the activation of the fluid fuel by the magnetic force.

Therefore, there is an effect of maximizing the atomization and activation of the fluid fuel by the magnetic force due to the arrangement of the precise permanent magnets 31 and 33 as described above.

3, the magnetic force generating unit 30 is provided with a plurality of permanent magnets 31 and 33 arranged in a direction in which the fluid fuel flows in order to provide a magnetic force to the fluid fuel flowing for a long period of time So that it is possible to expect an efficient and efficient activation of the fluid fuel.

Here, the polarity of the permanent magnets 31 and 33 is only the polarity of the one end of the permanent magnets 31 and 33 in order to easily explain the magnetic flux of the magnetic force emitted to the fuel hose 1. However, As shown in the figure, it is obvious that a pole opposite to the one pole is formed at the other pole.

As shown in FIGS. 2 to 4, the inner surface of the magnetic force shielding portion 40, the one side surface or both the surfaces of the shielding plate 35 and the second and seventh permanent magnets 31b and 31d Infrared rays radiated from the carbon plate 70 as shown in FIG. 5 may be formed between the first and second permanent magnets 33a and 33b and between the fifth and eighth permanent magnets 33b and 33d, Thereby further inducing the fluid fuel to be further subdivided and activated.

The silver plate 70 may be formed on one side or both sides of the carbon plate 70 so that the surroundings can be hygienically maintained by sterilizing the silver material.

3 and 4, the germanium activated carbon 90, which emits negative ions, is further formed in the receiving spaces 11 and 21 of the upper and lower cases 10 and 20, So that the complete combustion of the fluid fuel is induced.

Here, the effect due to the far-infrared rays and the anion is generally known, and a detailed description thereof will be omitted.

As shown in FIGS. 2 to 4, the magnetic force shielding part 40 is embedded in the upper and lower cases 10 and 20, and has a "C" shape, and the permanent magnets A first plate 41 for receiving the magnetic force of the first and second permanent magnets 31 and 33 and preventing the magnetic force emitted from the permanent magnets 31 and 33 from being emitted to the outside, And a second plate (42) for preventing the magnetic force emitted from the permanent magnets (31, 33) from being emitted to the outside.

That is, the magnetic forces of the permanent magnets 31 and 33 received in the magnetic force shielding part 40 through the first plate 41 and the second plate 42 of the magnetic force shielding part 40 are not limited to the left and right sides The magnetic force provided by the magnetic force generating unit 30 is concentrated to the fuel hose 1, thereby maximizing the activation of the fluid fuel by the magnetic force.

Here, the first plate 41 and the second plate 42 of the magnetic force shielding portion 40 are coupled by the bolts 2, but it is needless to say that the first plate 41 and the second plate 42 are limited to the coupling structure.

2 to 4, the bottom plate 50 is located below the magnetic force shielding portion 40 and is provided to prevent the deviation of the permanent magnets 31 and 33 received in the magnetic force shielding portion 40 .

Here, it is preferable that the bottom plate 50 is made of a silver material that is sanitarily good by disinfecting harmful bacteria around it, and at the same time, is prevented from being oxidized in the air to prevent corrosion and stably use for a long period of time.

The locking device 60 is formed on both sides of the upper case 10 and the lower case 20 so that the upper case 10 and the lower case 20 are fixed to the upper and lower cases 10 and 20 as shown in FIGS. 1, 2, The upper and lower cases 10 and 20 are mutually bound so that the fuel hose 1 inserted into the formed insertion grooves 14 and 24 is stably fixed or the upper and lower cases 10 and 20 are mutually connected The locking device 60 of the fluid fuel activating apparatus 100 using the magnetic force and the far-infrared ray according to the embodiment of the present invention is not limited to the use of the commonly used knot button.

The fluid fuel activating apparatus 100 using the magnetic and far infrared rays according to the embodiment of the present invention having the above-described components not only induces atomization and activation of the fluid fuel by the magnetic forces of the permanent magnets 31 and 33, There is an effect that the atomization and activation of the fluid fuel can be further maximized due to the far-infrared rays emitted from the carbon plate 70 located between the permanent magnets 31 and 33.

In addition, since the fluid fuel activating apparatus 100 using the magnetic force and the far infrared rays of the present invention has a structure that can be easily attached to and detached from the outer circumferential surface of the fuel hose 1, the conventional fuel hose 1 is cut, It is possible to prevent the leakage of the fuel that may occur in the structure in which the fuel cell is installed, thereby preventing a safety accident in advance.

The fluid fuel activating apparatus 100 using the magnetic force and the far-infrared rays according to the embodiment of the present invention having the above-described configuration is installed as follows to induce efficient fluid fuel activation.

4, after the upper case 10 is positioned on the upper portion of the fuel hose 1 and the lower case 20 is positioned on the lower portion thereof, The fuel hoses 1 inserted into the insertion grooves 14 and 24 of the upper and lower cases 10 and 20 are firmly fixed to complete the installation.

Then, as described above, the fluid fuel flowing into the fuel hose 1 having completed the installation of the fluid fuel activating apparatus 100 using the magnetic force and the far-infrared rays is emitted from the magnetic force generating section 30 as shown in FIG. 5 It is induced to be atomized and activated very efficiently due to strong magnetic force.

As shown in FIG. 5, the fluid fuel flowing into the fuel hose 1 may include the negative ions provided from the germanium activated carbon 90 and the negative ions supplied from the carbon plate 70 Through the provided far infrared rays, the fluid fuel is subdivided so as to be more efficiently activated, thereby inducing complete combustion of the fuel.

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. Fuel hose 2. Bolt
10. upper case 11, 21. accommodating space
12. Top cover 14, 24. Insertion groove
15, 25. Unevenness
20. Lower Case 22. Lower Cover
30. Magnetic force generator 31, 33. Permanent magnet
31a. First permanent magnet 31b. The second permanent magnet
31c. Third permanent magnet 31d. Seventh permanent magnet
32. First magnetic portion 33a. Fourth permanent magnet
33b. Fifth permanent magnet 33c. Sixth permanent magnet
33d. Eighth permanent magnet 34. Second magnetic portion
35. Shield plate 40. Magnetically shielded part
41. First Edition 42. Second Edition
50. Base plate 60. Locking device
70. Carbon plate 80. Silver plate
90. Germanium activated carbon

Claims (6)

delete A fluid fuel activating apparatus using a magnetic force and a far-infrared ray for activating a fluid fuel so as to facilitate combustion using a magnetic force of a permanent magnet and far-infrared rays,
And an upper cover is formed on the upper portion to determine the opening and closing of the accommodation space. A semicircular-shaped insertion groove is formed in the lower portion, and a plurality of irregularities are formed on the lower surface of the insertion- An upper case;
And a lower cover is formed at a lower portion of the upper case to determine the opening and closing of the accommodation space, and a semicircular-shaped insertion groove is formed in the upper portion of the upper case, A lower case having a plurality of concavities and convexities for preventing slippage;
A magnetic force generating unit including a first magnetic force unit including a plurality of permanent magnets and a second magnetic force unit including a plurality of permanent magnets located at an upper portion inside the lower case,
A first plate having a "C" shape and being accommodated in the upper and lower cases and preventing the magnetic force, which is emitted from the permanent magnets, from being discharged to the outside by receiving the permanent magnets therein; And a second plate disposed on both sides of the first plate to prevent the magnetic force emitted from the permanent magnet from being emitted to the outside;
A carbon plate disposed in the magnetic force generating portion and the magnetic force shielding portion and radiating far-infrared rays;
A bottom plate positioned below the magnetic force shield to prevent the permanent magnet housed in the magnetic shield, And
And a locking device formed on both sides of the upper case and the lower case to lock the upper and lower cases together so that the fuel hose inserted into the insertion groove formed in the upper and lower cases is stably fixed,
The first magnetic portion of the magnetic force generating portion is composed of three permanent magnets, and the three permanent magnets are numbered by a first permanent magnet, a second permanent magnet and a third permanent magnet in the flow direction in which the fuel flows in the fuel hose When given,
Wherein the first permanent magnet is arranged so as to have an S pole in a lower portion closely contacting the fuel hose, the second permanent magnet is disposed so as to have an N pole close to the fuel hose, and the third permanent magnet closely contacts the fuel hose And the lower portion of the lower electrode has an S-pole,
The second magnetic portion of the magnetic force generating portion is composed of three permanent magnets, and the three permanent magnets are numbered as a fourth permanent magnet, a fifth permanent magnet, and a sixth permanent magnet in the flow direction in which the fuel flows in the fuel hose When given,
Wherein the fourth permanent magnet is disposed so as to have an S pole close to the fuel hose and the fifth permanent magnet is arranged so that an upper portion closely contacting the fuel hose has an N pole, And the upper portion of the second electrode is arranged to have an S-pole,
The first, second and third permanent magnets are disposed opposite to the fourth, fifth and sixth permanent magnets, respectively, so that the first and fourth permanent magnets, the second and third permanent magnets and the third and sixth permanent magnets And a shield plate of a non-magnetic material for shielding magnetic force is disposed between the permanent magnets and the permanent magnets of the first and second magnetic force portions, respectively, And a fluid fuel activation device using far infrared rays.
3. The method of claim 2,
A seventh permanent magnet stacked on the second permanent magnet of the first magnetic force portion,
And an eighth permanent magnet stacked on the fifth permanent magnet of the second magnetic force portion,
Wherein the seventh permanent magnets are disposed such that the lower portion closely contacting the second permanent magnets has an N pole, and the eighth permanent magnets are disposed such that the upper portion closely contacting the fifth permanent magnets has N poles And a fluid fuel activation device using far infrared rays.
The method of claim 3,
Wherein the carbon plate is positioned between an inner surface of the magnetic force shielding portion and one or both surfaces of the shield plate and between the second and seventh permanent magnets and between the fifth and eighth permanent magnets. Fluid fuel activation device used.
5. The method of claim 4,
Wherein a silver plate of silver is formed on one side or both sides of the carbon plate.
3. The method of claim 2,
Further comprising a germanium activated carbon that emits an anion in the inner space of the upper and lower cases.

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