JPH03174294A - Intermediate magnetic pole-type device for magnetically treating fluid - Google Patents

Abstract

PURPOSE:To prevent thermal demagnetization and corrosion, to enhance the magnetic field intensity in the gap and to improve uniformity in the magnetic field by enclosing a vessel with a magnetic field device consisting of a yoke and a magnet from the outside of the ferromagnetic material wall side to generate a strong magnetic field between the intermediate magnetic poles in the vessel and passing a fluid through the strong magnetic field. CONSTITUTION:The magnetic flux generated from a magnet 1A is passed through a ferromagnetic side plate 5A and sent to an intermediate magnetic pole 3. Since the cross section is reduced at this time, the magnetic flux is concentrated in the gap x between the magnetic poles, and a strong magnetic field is formed. A closed circuit passing through a ferromagnetic side plate 5B, a magnet 1B and a yoke 2 and returning to the magnet 1A is formed. Meanwhile, a fluid is introduced from an inlet 10, passed through the gap x and discharged from an outlet 9. Meantime, the fluid crosses the magnetic field at right angles to the magnetic field, and is magnetically treated by the intermediate magnetic poles arranged in the flow direction. Consequently, a strong magnetic field is easily obtained notwithstanding that the structure is extremely simple. Furthermore, the magnetic field device is completely isolated from the treated water, and the supply of the fluid is not affected.

Description

Detailed Description of the Invention (a) Industrial Application Field The present invention relates to an intermediate magnetic pole type fluid magnetic processing device for activating various fluids used in industry and general households. .

(B) Conventional technology Conventional magnetic processing devices for various fluids include a permanent magnet placed inside a cylindrical container, a gap provided between each of the N and S poles and the cylinder, and a fluid There are some that have a structure that allows the tube to pass through the container, and others that have a plurality of rod-shaped permanent magnets arranged in the direction of the center axis of the cylinder inside the cylindrical container.

(c) Problems to be solved by the present invention However, in these magnetic processing devices, since permanent magnets are placed directly in the fluid, there is a problem of heat magnetism or corrosion when the fluid temperature is high. In addition, it is said that it is better to have a high magnetic field strength in the gap, but due to the structure, the magnetic field strength in the gap is limited to around sooo Gauss, and there are only two places where a strong magnetic field is generated. On the other hand, if there is a large amount, there are disadvantages such as low magnetic field uniformity.

The purpose of the present invention is to obtain a fluid magnetic processing device that completely eliminates the drawbacks of these conventional techniques. be.

In Figures 1 and 2, the square container has a non-magnetic bottom plate 1.
1 and non-magnetic side plates 6A and 8B with fluid outlets 9 and inlets 10, and ferromagnetic side plates 5 in contact with magnets IA and IB.
Consists of A and 5B.

At the top! I7 is attached via a gasket 8. Inside the rectangular container, the intermediate magnetic poles 3 are fixed at the top and bottom with non-magnetic plates 4A and 4B so as to maintain a constant interval X and are left stationary. The structure is such that it can be easily taken out by removing the lid 7. In Figure 1313, the magnetic field device is composed of a U-shaped yoke 2 and magnets IA and 1B attached to the inside of the two opposing sides of this yoke 2. It can be easily removed since it only needs to be removed.

(E) Function In the magnetic processing device of the present invention having the above-described structure, the magnetic circuit is configured as follows. @The magnetic flux generated from the stone LA passes through the ferromagnetic side plate 5A and reaches the intermediate magnetic pole 3. At this time, since the cross section is reduced, magnetic flux concentrates between each magnetic pole X, forming a strong magnetic field. Then, a closed circuit is formed that reaches the magnet IB via the ferromagnetic side plate 5B, passes through the yoke 2, and returns to the magnet 1A. - Force fluid enters from input RO 10, strong magnetic field space X
Pass through and reach exit 9. During this time, magnetic processing is performed by the number of intermediate magnetic poles arranged in the flow direction while crossing the magnetic field perpendicular to the flow of the fluid.

(F) Embodiment FIGS. 4 and 5 show an embodiment in which a round bar is used as the intermediate magnetic pole according to the present invention.

Furthermore, FIGS. 6 and 117 show an embodiment of an intermediate magnetic pole having a cross-sectional shape in which trapezoids are placed back to back. A strong magnetic field can be easily obtained. In Example 2, 28,000 Gauss was obtained with a gap of 2M. In addition, it is easy to scale up, and the location where the strong magnetic field is generated can be freely set by changing the intermediate magnetic pole, so it is possible to perform many times the number of magnetic processings at once than the conventional magnetic processing number. Furthermore, the magnetic field device and processing fluid are completely isolated,
This has the advantage of not being affected by fluid supply conditions.

[Brief explanation of the drawing]

FIG. 1 is a front view of an intermediate magnetic pole type fluid magnetic processing device. Figure tJ42 is a view taken along the line FF, and Figure 3 is a right side view. FIG. 4 is a front view showing an embodiment of the intermediate magnetic pole, and FIG. 5 is a plan view thereof. FIG. 16 is a front view showing an embodiment of the intermediate magnetic pole, and FIG. 7 is a plan view thereof. IA, IB 4A, 4B 5A, 5B 6A, 6B 0 1 Magnetic yoke Intermediate magnetic pole Non-magnetic plate Ferromagnetic side plate Non-magnetic side plate Lid packing Exit Entrance Non-magnetic bottom plate 1st prisoner 2C! 1 Fig. 5 Fig. 4 Fig. 5 Fig. 6 Fig. 5

Claims (1)

[Claims] One or more intermediate magnetic poles made of a ferromagnetic material are arranged in an openable/closable container made of a ferromagnetic material and a non-magnetic material, and fluid entrances and exits are provided at the front and rear of the container.
A magnetic field device consisting of a yoke and a magnet is sandwiched from the outside of the ferromagnetic wall of the container, and a strong magnetic field is generated between the intermediate magnetic poles in the container. By passing the fluid through this strong magnetic field, the fluid becomes magnetic. Intermediate magnetic pole type fluid magnetic processing device for processing.