KR100864233B1 - Liquid fuel multi molecular activation and ionization apparatus - Google Patents

Abstract

A multiple liquid fuel molecule ionization apparatus is provided to produce water good for health by ionizing molecules of water. A multiple liquid fuel molecule ionization apparatus comprises a body(16), a ceramic barrel and an outer case. A plurality of permanent magnets(17) are attached at an outer circumference of the body. An inner circulation passage(29) is formed by an inner cylinder(27) in the body. A plurality of outer circulation passages are formed between the inner cylinder and the body in a zig-zag manner lengthwise along the body. A spiral plate(43) is formed in the inner circulation passage. The ceramic barrel is disposed at a distance from two sides of the body and accommodates high purity ceramic chips. The outer case accommodates the body and the ceramic barrel and has an inlet and an outlet for liquid fuel.

Description

Liquid fuel multi molecular activation and ionization apparatus

1 is a perspective view showing a liquid fuel multi-use molecular ionization device according to the present invention.

Figure 2 is a partially exploded perspective view of a liquid fuel multi-purpose molecular active ionizer according to the present invention.

3 and 4 are enlarged exploded perspective views of main portions of the liquid fuel multipurpose molecular active ionization apparatus disclosed in FIGS. 1 and 2.

5 and 6 are cross-sectional views of the liquid fuel multi-use molecular ionization device disclosed in FIGS. 1 and 2.

FIG. 7 is an enlarged cross-sectional view of an essential part of the liquid fuel multipurpose molecular active ionization apparatus shown in FIG.

8 and 9 are a plan view and a bottom view of the body constituting the liquid fuel multi-use molecular ionization device for explaining the fuel migration path.

-Explanation of symbols for the main parts of the drawings

11: outer case 12, 13: cover

14, 15: outlet 16: body

17 permanent magnet 18, 19 turbulence plate

20: turbulent ball 21: ceramic chip

22, 23: reinforcing ribs 24, 25: body cover

26: ceramic barrel 27: inner cylinder

28: internal circulation path 29: bulkhead

30: external circulation path 31, 32: airtight cover

33, 34: engaging projection 35, 36: engaging groove

37, 38, 42, 44: O-ring 39a, 39b, 40a, 40b: through hole

41: heating element 43: spiral plate

The present invention relates to a liquid fuel multi-use molecular ionization device. In particular, the present invention is to install the multi-purpose molecular active ionizer of the liquid fuel of the present invention in the fuel supply line for supplying the fuel of the internal combustion engine, such as automobiles, ships or boilers using fossil raw materials to the combustion engine, while the fuel passes through Resonance absorption of the fuel molecules due to infrared radiation and oscillation of the penetrating molecules is generated, and the ionization of the fuel molecules is changed to change the angle of molecular bonds, thereby creating a force to receive air or oxygen from the outside. The present invention relates to a liquid fuel multi-purpose molecular active ionizer which can be easily combined to effectively burn a fuel of a liquid and improve combustion rate while reducing soot generation.

That is, the present invention focuses on a body having a circulation furnace precisely molded and calcined by using a high purity ceramic raw material and a transition metal so that the molecules of the liquid fuel can be activated, and in the center of the body to more easily active ionize the fuel molecules. The heating element is inserted, and the body designs a circulation path that can continuously circulate around the heating element in the center of the body for an appropriate time for activating the molecules of the liquid fuel.A magnet for forming electromagnetic waves is disposed outside the circulation path, and the inlet and outlet of the circulation path By appropriately arranging ceramics on the inside and outside to react with each other, it is possible to uniformly burn liquid materials, improve the combustion rate, not to adhere to the combustion deposits of internal combustion engines, and to clean deposits that impair the performance of internal combustion engines. Combustion rate close to% is maintained, improving fuel economy and output It relates to a multi-purpose liquid fuel molecules active ionization apparatus to be reduced.

Fuel saving and smoke reduction devices used in the past have been developed in various forms. Among the fuel saving and smoke reduction devices, products using simple magnetic field induces complete combustion by miniaturizing fuel and increasing thermal conductivity by using single-pole magnetization. It does not burn out completely.

In addition, products using magnetic fields and screws are produced the most, both at home and abroad. This uses magnetic sensitization to induce complete combustion by simply passing fuel through fine screws and activating ions. The effect itself is difficult to expect, and due to the high temperature, the phenomenon of potato and the structure of the product increases with time, so that impurities of the fuel stick to the inside of the product, and there is a risk of damaging the engine due to insufficient fuel intake.

In addition, the product installed in the air purifier is a cyclone type that rotates the air and uses the principle of rotating the air flowing into the engine. As a fume aftertreatment device, it is equipped with a filter that filters particulate matter in the exhaust gas, and burns the material collected in the filter, or passes the palladium catalyst through the exhaust gas through an electrocatalyst method to lower the ignition point of the soot and filter it with a filter. Products such as a method of burning through a heat source (electric heater), a plasma method, and the like, generate a plasma at a low voltage, and directly burn soot particles and hydrocarbons into a plasma flame, and decompose it into plasma energy and convert it into a harmless exhaust gas.

The above-mentioned products are not economical in terms of price, they are not popular, they only reduce soot in the exhaust gas, additional costs such as annual supplemental heat source additives, etc., and do not need to be installed in a low pollution engine without a newly developed aftertreatment device. In addition, there is a reduction effect of the exhaust gas, but the disadvantage is that the fuel saving or output rather falls.

Of course, all over the world agree on the need to develop new energy to replace fossil fuels, but it takes much time to commercialize alternative raw materials. Until then, finding the most efficient method under given conditions is the most economical and smart solution.

The present invention for solving the above problems is to improve the combustion rate of the fuel by using molecular activated ionization as a molecular activated ionization device by the catalyst, and to harm the engine performance so that the combustion deposits do not adhere to the internal combustion engine and the fuel system line. Its purpose is to clean deposits, improve fuel economy and power, reduce exhaust gases, and active ionize water molecules to provide beneficial water to the human body.

Liquid fuel multi-purpose molecular active ionization device according to the present invention for achieving the object as described above, a plurality of permanent magnets are attached to the outer peripheral surface for the formation of a magnetic field and the inner circulation path for the circulation of liquid fuel by the inner cylinder in the inner center A plurality of external circulation paths for circulating liquid fuel are formed in a zigzag form along the longitudinal direction of the body by a partition between the inner cylinder and the body, and spirally rotates the liquid fuel moving inside the internal circulation path. Spiral plate made of a special metal or ceramic material made of a body of the transition metal embedded in the inner circuit; A ceramic barrel disposed at both sides of the body at a predetermined interval and accommodating high purity ceramic chips formed in a pipe shape for radiating far infrared rays for catalysis of liquid fuel passing through the body; And a cylindrical outer case accommodating the body and the ceramic barrel and having outlet openings for inflow and outflow of liquid fuel on both sides thereof.

The permanent magnet may be disposed at a predetermined interval along the longitudinal direction of the body on the body at a position corresponding to the center of the plurality of external circulation paths.

The liquid fuel flows into one external circulation path and repeatedly circulates the plurality of external circulation paths in a zigzag and then discharged through the internal circulation path or circulated in reverse order by the inner cylinder and the partition and body cover. The plurality of external circulation paths may be connected.

A cylindrical heating element for accelerating active ionization of fuel molecules may be embedded in the inner circumferential surface of the inner cylinder.

Turbulent plates are provided at both ends of the ceramic cylinder, and a plurality of turbulent holes for turbulent liquid fuel can be formed in the turbulent plate.

The both ends of the body has a sealing cover having a coupling groove for coupling with the coupling protrusion of the body by the body cover, by connecting the inner circulation path and the plurality of external circulation paths in one circulation path for the circulation of liquid fuel Can give

An O-ring for blocking external leakage of the liquid fuel in the body may be embedded between the coupling protrusion of the body and the coupling recess of the sealing cover.

Hereinafter, the present invention will be described in detail.

Liquid fuel multi-purpose molecular active ionization apparatus according to the present invention, as shown in Figure 1, the outer casing of the cylindrical body having a ceramic barrel radiating far infrared rays for catalysis on both sides thereof and a turbulent plate for ion activation. (12) and (13) are screwed on both ends of the cover, and the outlet inlets (14) and (15) for connection with fuel system lines of various internal combustion engines not shown in the cover (12) and (13) are screwed. Are combined. In particular, a separate O-ring 42 is embedded between the end of the outer case 11 and the cover 12, 13 so that the inner case 11 may pass through the inner case 11 even if the inner pressure of the outer case 11 rises. Liquid fuel does not leak into the gap between the outer case 11 and the cover 12, 13.

Liquid fuel multi-purpose molecular active ionization device according to the present invention is a cylindrical shape having a plurality of permanent magnets 17 attached to the outer peripheral surface to form a magnetic field in the central portion of the outer case 11 as shown in Figures 2 and 5 A body 16 made of transition metal is inherent, and two turbulence plates 18 and 19 having a plurality of turbulence holes 20 are disposed at both sides of the body 16 at regular intervals. Between the turbulence plates 18 and 19, a plurality of ceramic chips 21 formed in a cylindrical shape are accommodated, and a ceramic cylinder 26 in which a plurality of through holes are formed in all directions to allow liquid fuel to pass therethrough is embedded.

The turbulent holes 20 formed in the turbulent plates 18 and 19 are opposed to both sides of the body 16 to increase the efficiency of the catalytic action by allowing the inflow or outflow of liquid fuel to be turbulent and ionized. In particular, a space is formed between the cover 12 and 13 and the turbulence plates 18 and 19 and between the turbulence plates 18 and 19 and the body 16, so that the liquid fuel flows smoothly. To this end, reinforcing ribs 22 and 23 are formed on both sides of the body 16 to separate the turbulence plates 18 and 19 from the body 16 by a predetermined distance. In addition, the reinforcing ribs 22 and 23 separate the turbulence plates 18 and 19 from the body 16 by a certain distance, and at the same time, the body 16 and the body covers 24 and 25 screwed thereto. It also acts as a press so that there is no gap between).

In particular, since one or a plurality of O-rings 44 are fitted to the outer circumferential surface of the body 16, the body 16 and the outer case 10 are sealed between the body 16 and the outer case 10 when the body 16 is coupled to the outer case 10. 10) and the liquid fuel does not escape between the body (16).

Here, the manufacturing method of the ceramic chips 21 accommodated in the ceramic cylinder 26 for radiating far infrared rays to catalyze the liquid fuel will be described.

The ceramic chips 21 accommodated in the ceramic barrel 26 are formed so that powder does not occur even in the flow of liquid raw materials, and 61 wt% SiO ₂ , 10.1 wt% Al ₂ O ₃ , Fe ₂ 0 ₂ , 1.2 wt% Efficient to 1.98% CaO ₂ , 0.5% MgO ₂ , 2.5% K ₂ O, 3.59% Na ₂ O, 1.5% TiO ₂ , 0.05% ZrO ₂ , 5.8% Igloss, Se 4.28% In order to radiate far infrared rays from the ceramic component, the additive component is 4% by weight cupric oxide, 6% by weight ZrO ₂ , 14% by weight CaO ₂ , 7% by weight TiO ₂ , 4% by weight cobalt, B ₂ O 61 wt%, CeO ₂ 8 wt%, K ₂ O ₃ 5 wt%, Mo 4 wt%, SrO ₃ 5 wt%, CaO 25 wt%, MgZn 4 wt%, NiZn 5 wt%, Pd 3 wt% It is prepared by mixing.

At this time, the ceramic chips 21 are calcined in a cylindrical shape so as to maximize the contact area with the liquid fuel after heat-treating 1,000 to 1,300 ° C by mixing and baking 63 to 83% by weight of the basic components and 17 to 37% by weight of the additive components. To prepare.

The body 16 of the transition metal material embedded in the outer case 11 has a configuration as shown in FIGS. 3 to 9.

An inner cylinder 27 is formed at the center of the body 16 to form an inner circulation path 28 in the longitudinal direction of the body 16, and a plurality of outer circulation paths 30 are located close to the inner circumferential surface of the body 16. A plurality of partitions 29 are formed to connect the inner circumferential surface of the body 16 and the outer circumferential surface of the inner cylinder 27 to form a) and spirally rotate the liquid fuel moving inside the inner circulation path 28. The spiral metal plate 43 made of special metal or ceramic material is embedded in the internal circulation path 28. At this time, since the circulation path for the circulation of the liquid fuel is composed of one internal circulation path 28 and an even number of external circulation paths 30, the liquid fuel introduced to one side of the body 16 may flow out to the other side of the body 16. .

In particular, since the permanent magnets 17 are disposed at regular intervals in the longitudinal direction at the center of the plurality of external circulation paths 30, and the internal circulation paths 28 are disposed at the central portions of the permanent magnets 17, the body 16. The liquid fuel circulating in the long circulation path formed therein is subject to the influence of the magnetic field for a long time, thereby improving the reforming efficiency.

In the above embodiment, the body 16 having six external circulation paths 30 has been described as an example, but the present invention is not limited thereto, and an even number of external parts are provided between the outer circumferential surface of the inner cylinder 27 and the inside of the body 16. You can build a circuit.

The body cover 24, 25 is provided on both sides of the body 16 so that the liquid fuel can circulate sequentially through the internal circulation path 28 and the external circulation path 30 formed in the body 16 without flowing to other circulation paths. The sealing lids 31 and 32 are coupled to each other.

In particular, a portion of the inner cylinder 27 and the partition 29 located on both sides of the body 16 are formed with engaging projections 33 and 34 for sealing between the circulation passages, Coupling grooves 35 and 36 corresponding to the coupling protrusions 33 and 34 are formed on the inner surface thereof, and the coupling grooves 35 and 36 are embedded with O-rings 37 and 38 to increase the sealing property.

All the inner cylinders 27 and all the partitions 29 do not have coupling protrusions 33 and 34 formed therein for circulation of the liquid fuel, and as shown in FIGS. 8 and 9, some of the inner cylinders 27 and some of the partitions are formed. Coupling protrusions 33 and 34 are formed at 29. Of course, the coupling protrusions 33 and 34 formed on both sides of the body 16 and the coupling grooves 35 and 36 formed on the sealing cover 31 and 32 are the same. O-rings 37 and 38 also have different shapes.

That is, as shown in Figs. 8 and 9, the coupling protrusions 33 and 34 are formed on both sides of the body 16 itself so that the liquid fuel circulating in the circulation path does not leak. In addition, as shown in FIG. 8, coupling protrusions 33 are alternately formed on the entire inner cylinder 27 and six partitions 27 on one side of the body 16, and on the other side of the body 16, as shown in FIG. 9. As shown in FIG. 8, the engaging projection 34 is formed on the partition wall 29 in which the engaging projection 33 is not formed in the portion of the inner cylinder 27 and the six partition walls 29, and the engaging projection 34 is formed. Coupling protrusions 34 are also formed in the partition 29 located around the outer circulation path 30 which is in contact with the inner cylinder 27 which is not.

In addition, the airtight covers 39a, 39b, 40a and 40b communicate with the inner circuit 28 and one of the six outer circuits 30 in the airtight cover 31, 32 and the body cover 24, 25. These are formed, respectively.

In addition, since the heating element 41 is embedded in the inner circumferential surface of the inner cylinder 27, the reforming efficiency of the liquid fuel can be improved.

The present invention can be applied to water, water softeners, instantaneous water heaters, heating devices, etc., which do not require filters by ionizing water harmful to humans as well as liquid fuels such as automobiles.

Therefore, according to the present invention, the liquid fuel multipurpose molecular active ionizer is installed in a fuel supply line of an internal combustion engine such as an automobile, a ship, or a boiler using fossil raw materials, and the fuel passes through it, thereby distinguishing molecules of the fuel by infrared rays. Resonance absorption due to radiation and oscillation of permeable molecules causes active ionization of fuel molecules to change the angle of molecular bonds, creating a force to accept air or oxygen from the outside, making it easier to combine with oxygen. It is possible to burn fuel efficiently and improve combustion rate while reducing soot generation.

That is, the present invention focuses on a body having a circulation furnace precisely molded and calcined by using a high purity ceramic raw material and a transition metal so that the molecules of the liquid fuel can be activated, and in the center of the body to more easily active ionize the fuel molecules. The heating element is inserted, and the body designs a circulation path that can continuously circulate around the heating element in the center of the body for an appropriate time for activating the molecules of the liquid fuel.A magnet for forming electromagnetic waves is disposed outside the circulation path, and the inlet and outlet of the circulation path By appropriately arranging ceramics on the inside and outside to react with each other, it is possible to uniformly burn liquid materials, improve the combustion rate, not to adhere to the combustion deposits of internal combustion engines, and to clean deposits that impair the performance of internal combustion engines. Combustion rate close to% is maintained, improving fuel economy and power There is an effect that can reduce the gas.

Claims (7)

A plurality of permanent magnets 17 are formed on the outer circumferential surface, and an inner circulation path 28 for circulating liquid fuel is formed by an inner cylinder 27 at an inner center thereof. The inner cylinder 27 and the body 16 are formed. A plurality of external circulation paths 30 for circulating liquid fuel are formed zigzag along the longitudinal direction of the body 16 by the partition wall 29 and reverse the liquid fuel moving inside the internal circulation path 28. A special metal or ceramic spiral plate 43 which is manufactured spirally so as to rotate, the body 16 having a transition metal embedded in the internal circulation path 28; Ceramics containing high purity ceramic chips 21 arranged at both sides of the body 16 and formed in a pipe shape for radiating far infrared rays for catalysis of liquid fuel passing through the body 16 are accommodated. Barrel 26; And A cylindrical outer case 11 in which the body 16 and the ceramic barrel 26 are accommodated, and outlet inlets 14 and 15 are formed at both sides for the inflow and outflow of liquid fuel; Liquid fuel multipurpose molecular active ionization apparatus comprising a. The method of claim 1, The permanent magnet 17 is a liquid fuel, characterized in that arranged at a predetermined interval along the longitudinal direction of the body 16 in the body 16 of the position corresponding to the center of the plurality of external circulation path 30 Multipurpose molecular activated ionizer. The method of claim 1, Body covers 24 and 25 are installed at both sides in the longitudinal direction of the body 16, The liquid fuel flows into one external circulation path and repeatedly circulates the plurality of external circulation paths zigzag, and then discharged through the internal circulation path 28 or circulated by the reverse order. (29) and the body cover (24, 25), the liquid fuel multi-purpose molecular active ionization apparatus, characterized in that the internal circulation path 28 and the plurality of external circulation paths (30) are connected. The method of claim 1, Liquid fuel multi-purpose molecular active ionization apparatus, characterized in that the inner cylindrical surface of the inner cylinder (27) has a cylindrical heating element 41 for accelerating the active ionization of the fuel molecules. The method of claim 1, Turbulent plates 18 and 19 are installed at both ends of the ceramic barrel 26, and the turbulent plates 18 and 19 are provided with a plurality of turbulent holes 20 for turbulent liquid fuel. Liquid fuel multipurpose molecular activated ionizer. The method of claim 1, At both ends of the body 16, sealing covers 31 and 32 having coupling grooves 35 and 36 for engagement with the coupling protrusions 33 and 34 of the body 16 are the body cover 24. Is coupled by (25), the liquid fuel multi-purpose molecular active ionization apparatus, characterized in that for connecting the internal circulation passage 28 and the plurality of external circulation passages in one circulation path for the circulation of liquid fuel. The method of claim 6, Between the coupling protrusions 33 and 34 of the body 16 and the coupling grooves 35 and 36 of the sealing cover 31 and 32 to block external leakage of the liquid fuel in the body 16. Liquid fuel multi-purpose molecular active ionizer, characterized in that the O-ring (37) (38) is embedded.

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