JP4086557B2 - Fluid treatment device using magnetism - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a fluid processing apparatus using magnetism. Specifically, the present invention relates to a fluid processing device that improves engine liquid fuel, water, and gas by magnetism.
[0002]
[Prior art]
Research on fluid treatment by magnetism is known to have an effect of preventing water scale, red rust, and the like from adhering to equipment such as heat exchangers and water receiving tanks that use water and the inner walls of these pipes.
[0003]
In addition, it improves the combustion efficiency of engine fuels such as automobiles, reduces carbon monoxide and nitrogen oxide emissions, prevents carbon and soot from adhering to the inner wall of the pipe, and activates oxygen in the combustion air It is known that it has a function by improving combustion efficiency.
Furthermore, it is known to have functions such as activating oxygen in combustion air to improve combustion efficiency and reducing emissions of carbon monoxide and nitrogen oxides.
[0004]
As a fluid processing apparatus using this magnetism, a pair of permanent magnets are mounted on the inside or the outside of a pipe so as to face each other, a magnetic field is formed in the pipe by this permanent magnet, and the fluid is applied to the magnetic field at a certain speed or higher. Ion current is generated when crossing.
[0005]
Therefore, in the case of water by this ionic current, the effect of preventing the adhesion to the inner wall of the pipe is obtained by changing the crystalline state of the scale substance dissolved in the water, and in the case of engine fuel, The effect of improving the combustion efficiency by changing the molecule to facilitate the bonding with oxygen is obtained.
[0006]
[Problems to be solved by the invention]
However, in the structure in which the permanent magnet is provided in the tube, it is liable to rust due to moisture, and the tube must be changed to a structure to which the permanent magnet can be attached.
[0007]
In addition, in a structure in which a permanent magnet is provided outside the tube, especially in vehicles, it is always exposed to the outside air, so it often deteriorates due to changes in humidity, temperature, etc. Further, in order to form a magnetic field with strong magnetic field lines, a large magnetic force is required. When a permanent magnet is attached, problems such as causing an error in an electronic device in the vicinity due to the lines of magnetic force or magnetizing a metal member in the vicinity.
[0008]
The present invention was devised in view of the above points, and is a fluid using magnetism that can prevent deterioration and leakage of magnetic lines of force to the outside by housing a magnet in a wooden shielding box. The object is to provide a processor.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, a fluid treatment device using magnetism according to the present invention is a fluid treatment device in which a pair of permanent magnets are provided opposite to each other on the outer peripheral surface of the tube. A pair of first permanent magnets provided in a sandwiched state and a second permanent magnet housed in a wooden shielding housing magnetized by the first permanent magnet.
[0010]
Here, the pair of first permanent magnets provided in a state of sandwiching the tube along the outer peripheral surface of the tube is a pair formed in a curved plate shape so as to encapsulate the tube along the outer peripheral surface of the tube. These permanent magnets can be mounted in a state facing the tube by the pair of S-pole and N-pole permanent magnets.
[0011]
The second permanent magnet housed in the wooden shielding housing that is magnetically attached to the first permanent magnet is the second permanent magnet that attracts the first permanent magnet to the wooden shielding housing body. By storing the magnet, the magnetic field of the second permanent magnet is added to the magnetic field of the first permanent magnet, and it is possible to form a magnetic field with strong magnetic field lines from the first permanent magnet. Become.
[0012]
In addition, the second permanent magnet is housed in a wooden shielding housing, which prevents the occurrence of condensation and maintains a dry state due to the characteristics of the wood, even under extreme temperature and humidity changes. By doing so, deterioration of the magnet due to rust and the like is prevented, and leakage of magnetic field lines to the outside is suppressed as much as possible without affecting electronic devices.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings to provide an understanding of the present invention.
1 is a front view for explaining an example of a fluid treatment device using magnetism to which the present invention is applied, FIG. 2 is a side view in FIG. 1, and FIG. 3 is a plan view in FIG.
[0014]
Here, the fluid processing device 1 includes a pair of curved plate-shaped first permanent magnets 2, a pair of shielding housings 3 made of paulownia material, and a space 4 in the shielding housing 3. It is comprised from a pair of 2nd permanent magnet 5 made into the spherical shape accommodated.
[0015]
Therefore, the first permanent magnet is a curved plate-shaped permanent magnet that is provided so as to face each other in such a manner as to sandwich a non-conductive material pipe through which engine fuel flows. This permanent magnet is an Nd—Fe—B based magnet mainly composed of rare earth metals neodymium (Nd), boron (B), and iron (Fe).
[0016]
The second permanent magnet is a sphere-shaped Nd-Fe-B magnet, and the first permanent magnet has a size that can be freely rotated in a cylindrical space formed in the shielding housing. It is configured to rotate to a magnetic pole that absorbs the magnetic pole of the magnet.
[0017]
Further, the shielding housing is formed in a curved shape so that one end thereof is in close contact with the first permanent magnet, and has a size in which a spherical magnet as the second permanent magnet can rotate in the vicinity of the center of the one end. A cylindrical space is formed.
[0018]
Here, the shielding housing is formed of paulownia material, and since this paulownia material is porous, there is an advantage that the heat retaining effect is large and light. Further, when the humidity in the air rises, it absorbs moisture and expands. On the contrary, when it dries, the paulownia itself contracts and releases the absorbed air, so that the space inside the shielding container always has a constant humidity and temperature. Thus, the second permanent magnet is prevented from deteriorating and the first permanent magnet is also prevented from deteriorating.
[0019]
Further, by forming the second permanent magnet so as to have a thickness around the second permanent magnet, it is possible to suppress the influence of the second permanent magnet and the first permanent magnet due to the external magnetic field as small as possible.
[0020]
The shielding container is most preferably formed of paulownia wood, but may be any wood as long as it has a similar effect.
[0021]
Further, the first permanent magnet and the second permanent magnet do not need to be formed of Nd—Fe—B magnets, and any magnets can be used as long as they have a strong magnetic force, are lightweight, and hardly deteriorate. good.
[0022]
In addition, the space formed in the shielding housing is not necessarily formed in a cylindrical shape, and may be any shape as long as the spherical second permanent magnet can rotate. However, in consideration of manufacturability and efficiency, it is most preferable to form the space in a cylindrical shape.
[0023]
Next, FIG. 4 is an explanatory view showing another embodiment to which the present invention is applied, in which the shielding housing 3 is integrally formed, and an elliptical through hole 6 through which the tube A is inserted at the center. The curved plate-like first permanent magnets 2 are respectively attached to the upper and lower surfaces of the through hole 6.
The shielding housing 3 is formed with a cylindrical space 4 having a size that allows the spherical second permanent magnet 5 to rotate.
[0024]
In the present invention configured as described above, as shown in FIG. 5, the tube A made of a non-conductive material through which a fluid such as water or engine fuel flows is first sandwiched between a pair of first permanent magnets 5 divided. Attach to tube A.
[0025]
Here, both ends of each other are magnetized by the magnetic poles of the N pole and the S pole of the pair of first permanent magnets. Then, the second permanent magnet 5 having a spherical shape that is housed in the space 4 in the shielding housing 3 by bringing one end of the shielding housing 3 close to each first permanent magnet 5. Is reversed and magnetically attached to the magnetic pole corresponding to the magnetic pole of the first permanent magnet 5.
[0026]
Therefore, as shown in FIG. 6, the magnetic force of the spherical second permanent magnet 5 acts on the first permanent magnet 2 in the shielding housing 3, and the magnetic field of the second permanent magnet 5 is the first. The permanent magnet 2 is added.
[0027]
Here, in the first permanent magnet 2, the magnetic lines of force B are emitted perpendicular to the flow in the tube A in a state where the magnetic field is amplified by the second permanent magnet 5.
Electric energy is generated by the change in the flow velocity of the fluid crossing the magnetic field lines B. The electric energy changes more as the magnetic force is stronger and the flow velocity is faster.
[0028]
Therefore, when the fluid C crosses the magnetic field line B, an electronic excitation action occurs and energy is generated. For example, when the fluid is water, the crystal state of a scale substance or the like dissolved in water is generated by this energy. To prevent the adhesion of scales etc. on the inner wall of the pipe, and when the fluid is engine fuel, the hydrocarbon molecules can be changed to easily combine with oxygen. By improving the combustion efficiency, the effect of improving the fuel consumption can be obtained.
In addition, when the fluid is combustion air, it is possible to obtain an effect of activating oxygen and improving combustion efficiency to reduce discharge of carbon monoxide and nitrogen oxides.
[0029]
Furthermore, since the first permanent magnet 2 and the second permanent magnet 5 are shielded by the shielding housing 3 formed of paulownia, it is possible to minimize leakage of magnetic field lines to the outside. .
[0030]
Moreover, in the engine room of a vehicle, the humidity and temperature change are very large environmental conditions, but the inside of the hollow part is always maintained at a constant humidity and temperature by the paulownia material to prevent deterioration of the second permanent magnet. This makes it possible to continue the stable fluid treatment without reducing the strength of the magnetic field.
Furthermore, since the paulownia wood has a higher ignition point than other woods, it is possible to prevent the occurrence of fire due to spontaneous ignition even in an engine room that is in a high temperature state.
[0031]
【The invention's effect】
As described above, according to the present invention, the spherical second permanent magnet rotates with respect to the first permanent magnet according to the magnetic pole of the first permanent magnet, so that the magnetic attachment to the tube is prevented. It will be easy to do.
[0032]
Moreover, a stronger magnetic field can be obtained by adding the magnetic fields of the first permanent magnet and the second permanent magnet, the engine energy and water can be processed efficiently, and the permanent magnet is shielded by the paulownia material. Thus, malfunction of the electronic device can be prevented by preventing the deterioration of the magnet and the leakage of the magnetic lines of force to the outside.
[Brief description of the drawings]
FIG. 1 is a cross-sectional front view showing an example of a fluid treatment device using magnetism to which the present invention is applied.
FIG. 2 is a cross-sectional side view in FIG.
FIG. 3 is a cross-sectional plan view in FIG. 1;
FIG. 4 is a perspective view showing another example of a fluid processing device using magnetism to which the present invention is applied.
FIG. 5 is a perspective view showing a usage state of a fluid treatment device using magnetism to which the present invention is applied.
6 is an operation explanatory diagram of FIG. 5. FIG.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Fluid processor 2 1st permanent magnet 3 Shielding container 4 Space part 5 2nd permanent magnet

Claims (2)

In the fluid processing device provided with a pair of permanent magnets facing the outer peripheral surface of the tube,
A pair of curved first permanent magnets provided so as to sandwich the tube along the outer peripheral surface of the tube;
Magnetism characterized by comprising a spherical second permanent magnet housed in a freely rotating state in a space formed in a wooden shielding housing body magnetically attached to the first permanent magnet. Had a fluid treatment device. The fluid processing device using magnetism according to claim 1, wherein the shielding container is made of paulownia.

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