JPH0445665B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION "Field of Industrial Application" The present invention relates to a magnetic processing apparatus for fuel, etc., which magnetically processes fuel, etc.

“Conventional technology” Diesel oil, gasoline, and LPG as automobile fuels
The present inventor previously devised a fuel magnetic processing device shown in FIGS. 6 and 7 as a device for improving combustion efficiency.

FIG. 6 is a front view of the entire housing with a part thereof cut away. At both end openings of the cylindrical body 102, lid bodies 104, 104' having pipe connection ports 103, 103' in the center thereof are shown. It consists of a housing 101 that is adhered and configured, and a magnet laminate 105 housed within the housing 101. The magnet laminate 105 is constructed by alternately mounting magnetic pole pieces 106 and magnets 107 made of magnetic stainless steel on a shaft 108 having a square cross section.

As the magnet 107, a ferrite magnet is used, and its diameter is smaller than that of the magnetic pole piece 106.

Further, as shown in FIG. 7, the magnetic pole piece 106 has a diameter equal to the inner diameter of the housing 101, and is provided with a notch 106a and a through hole 106b on its periphery. Note that 106c is an insertion hole for the shaft body 108.
Further, the magnetic pole pieces 106 are mounted so that the notches 106a are shifted by 90 degrees between adjacent magnetic pole pieces.

The fuel magnetic processing device is based on the following principle.

Fuel molecules are made of hydrocarbons, and when in a liquid or gaseous state, the molecules vibrate irregularly, known as Brownian motion. Additionally, fuel molecules attract each other due to intermolecular attraction, become colloidal, and tend to increase in size. Also, when a molecule becomes a colloid, it has an electric charge (ion), and opposing ions gather around the colloid to form a layer.
This is called an electric double layer, and forces that repel each other are generated. The fuel condition is
It is thought that the intermolecular attraction of the molecules, the repulsive force due to the electric double layer, and Brownian motion are in a balanced state. Therefore, in order to improve combustibility, the colloidal state must be destroyed and the molecules must be made smaller. It would be better to make it easier to oxidize (burn).

Furthermore, when an object moves in a magnetic field (magnetic field lines), current and force are generated in the direction that impedes the movement (electromagnetic induction; Fleming's law). Therefore, when fuel moves in a magnetic field (magnetic field lines), electric current (eddy current) and force are generated in the fuel molecules due to electromagnetic induction. The eddy current generated in the fuel molecules creates a strong electric double layer and destroys the colloidal state solidified by intermolecular attraction. At the same time, the force generated in the molecules accelerates Brownian motion and helps destroy the colloidal state. The fuel magnetic processing device based on such a principle is
To some extent, the intended purpose was achieved in that the fuel could be activated and combustion efficiency could be improved.

Therefore, as a result of research to further improve combustion efficiency, the present inventor discovered that combustion efficiency can be further improved by changing the fuel flow path in the fuel magnetic processing device.

That is, in the fuel magnetic processing device, the seventh
Since magnetic pole pieces as shown in the figure are used, and adjacent magnetic pole pieces are installed with their notches shifted by 90 degrees, the fuel entering from one pipe connection port 103 is
It flows in the housing 101 as a swirling flow. For this reason, the fuel comes out of the housing 101 without sufficiently contacting the lines of magnetic force of each magnet 107.

``Problems to be Solved by the Invention'' Therefore, in view of the above points, the present invention is configured so that the fuel entering the housing flows while fully contacting the magnetic lines of force of the magnet between each magnetic pole piece, thereby improving combustion efficiency. This allows for further improvement.

"Means for Solving the Problems" The present invention provides a housing configured by covering openings at both ends of a cylindrical body with a lid body having pipe connection ports at required portions, and a housing with a diameter that is housed in the housing. A magnetic processing device for fuel, etc., consisting of a magnetic pole piece having the same diameter as the inner diameter of the housing and a magnet laminate formed by alternately attaching magnets with a diameter smaller than the magnetic pole piece to a shaft body, which is inserted into the housing. This is a magnetic processing device for fuel, etc., characterized in that the fuel is configured to flow in a spiral shape around a shaft body between each magnetic pole piece.

``Function'' Fuel, etc. that enters the housing from one pipe connection port flows in a spiral around the shaft between each magnetic pole piece, and therefore does not fully contact the magnetic lines of force of the magnet that exist between the magnetic pole pieces. , and comes into contact with the lines of magnetic force many times before coming out from one side of the housing to the other.

"Example" Next, examples of the present invention will be described.

FIG. 1 is a partially cutaway front view of an embodiment of the present invention, FIG. 2 is a side view of a magnetic pole piece, and FIG. 3 is a perspective view of a magnetic pole piece.

In the figure, reference numeral 1 denotes a housing, which is constructed by covering the openings at both ends of a cylindrical body 2 with lids 4, 4' having pipe connection ports 3, 3' in the center.

Incidentally, a lid body provided at an eccentric portion of the pipe connection ports 3, 3' may be used.

Reference numeral 5 denotes a magnet laminate, which is housed within the housing 1. In addition, the magnet laminate 5 is attached to a shaft body 8 having a square cross-section with magnetic pole pieces 6 having a diameter equal to the inner diameter of the housing 1 and magnets 7 having a smaller diameter than the magnetic pole pieces 6 alternately. configured.

In this embodiment, the magnetic pole piece 6 is provided with three cut-and-raised pieces 6a, 6a, 6a raised in the same direction on the peripheral edge. Moreover, the cut and raised pieces 6a, 6a, 6
a is raised obliquely along the circumferential direction of the magnetic pole piece 6. Moreover, 6b is an insertion hole for the shaft body 8 provided in the center.

Furthermore, when attached to the shaft body 8, all the magnetic pole pieces 6, 6, . . . are arranged so that their cut and raised pieces 6a are in the same direction.

As a result, fuel, etc. (not shown) entering the housing 1 from one pipe connection port 3 flows in a spiral shape around the shaft body 8 between each magnetic pole piece 6, 6, as shown by the arrow. , sufficiently contacts the lines of magnetic force of the magnet 7. Finally, after sufficiently contacting the lines of magnetic force many times, it exits from the other pipe connection port 3'.

Further, in the embodiment shown in FIG. 1, one magnet 7 is arranged between each magnetic pole piece 6, 6.
As shown in FIGS. 4 and 5, two pieces may be arranged with spacers 9 interposed therebetween.

Further, although not shown, the surface of each magnet 7 that comes into contact with fuel or the like may be covered with a mesh cap.

"Effects of the Invention" Since the present invention has the above-described configuration, the fuel that enters the housing from one pipe connection port flows in a spiral shape between each magnetic pole piece around the shaft body. It sufficiently and reliably contacts the lines of magnetic force of the magnet existing in the housing, and repeatedly contacts the lines of magnetic force many times until it comes out from one side of the housing to the other. This makes the fuel molecules finer and further improves combustion efficiency.
It has been put to practical use and is highly effective.

[Brief explanation of drawings]

FIG. 1 is a partially cutaway front view of an embodiment of the present invention, FIG. 2 is a side view of a magnetic pole piece, FIG. 3 is a perspective view of a magnetic pole piece, and FIGS. 4 and 5 are other views of a magnet laminate. FIG. 6 is a partially cutaway front view of a fuel magnetic processing device previously devised by the present inventor, and FIG. 7 is a side view of a magnetic pole piece. 1...Housing, 1a, 1b...Groove, 2...
Cylindrical body, 3, 3'... Pipe connection port, 4, 4'... Lid, 5... Magnet laminate, 6... Magnetic pole piece, 6a...
Cut and raised piece portion, 6b...Shaft body insertion hole, 7...Magnet, 8...Shaft body.

Claims (1)

[Scope of Claims] 1. A housing configured by covering the openings at both ends of a cylindrical body with a lid having pipe connection ports at required portions, and a housing having a diameter equal to the inner diameter of the housing and housed within the housing. A magnetic processing device for fuel, etc., comprising a magnetic pole piece and a magnet laminate configured by alternately attaching magnets smaller in diameter than the magnetic pole piece to a shaft body, wherein each of the magnetic pole pieces is attached to a required part. The magnetic pole pieces are provided with cut and raised pieces raised diagonally along the circumferential direction, and these magnetic pole pieces are attached to the shaft body so that the cut and raised pieces are oriented in the same direction. Magnetic processing equipment for fuel, etc. 2. The apparatus for magnetically processing fuel, etc. according to claim 1, wherein the cut and raised piece is provided on the peripheral edge of the magnetic pole piece. 3. The magnetic processing apparatus for fuel, etc. according to claim 1 or 2, wherein the cut and raised pieces are provided at three locations on the peripheral edge of the magnetic pole piece.