KR100239964B1 - Filter assembly - Google Patents

Abstract

The present invention relates to a filtering assembly for dust filtration using an electromagnet.

A cylindrical porous element 6 is inserted into one side of the cylindrical filtering element nonmagnetic casing 4, and a magnetic powder filling layer 5 is formed therein, and the other of the magnetic powder filling layer 5 described above. After inserting the porous body (7) on the side, it has a jaw (2) at both ends and the coil is wound around the outer surface to be inserted into the non-magnetic casing (1) for the cylindrical coil layer formed coil layer (3) Filter assembly for dust filtration using an electromagnet characterized in that.

Description

Filter assembly for dust filtration using electromagnets

The present invention relates to a filtering assembly for dust filtration using an electromagnet.

Filters are widely used for the purpose of realizing a clean environment by collecting and filtering various types of dust and toxic gases generated in various industrial sites.

Generally, a filter using an electrostatic precipitator, a cyclone or a filter paper is used to filter liquids or gases having particles of about 1 micron or less. In the case of a filter using a filter paper, a cellulose, a carton, or a rayon having a diameter of 5 to 50 microns is used. , A mixture of polyester and artificial fibers is used as a filtration medium, and activated carbon is used for removing toxic gases and odors contained in air.

Unexamined-Japanese-Patent No. 4-118010 passes the to-be-processed water, and the magnetic filtration medium and the magnetic filtration medium filled in the container which formed the inlet and the outlet were fixed in the container filled with the magnetic filtration medium, and at the same time, a pair of magnetic pole plates formed with a plurality of flowing holes. In the electronic filter for water treatment, the electromagnetic coil installed around the magnetic and electric magnetic filtration medium and the water to be treated pass through the magnetic filtration medium. The electronic filter for water treatment is an electromagnetic magnetic filtration medium magnetized by the electronic coil. Although the magnetic filter has a magnetic permeability of the magnetic pole plate having a central portion lower than that of the outer periphery of the magnetic pole plate, the electronic filter for water treatment has been described. However, the related art and other conventional techniques use artificial fibers or the like as a filter medium. In addition to the technical problems, to manufacture a filter for filtration of 0.05 micron microparticles as a filter to be used In economic terms, the production price is very high.

In order to solve the above problems, the present invention is not only easy to manufacture, but the production price is significantly cheaper than the conventional and excellent dust filtration effect, ferromagnetic, nonmagnetic, soft magnetic and paramagnetic dust with an average particle diameter of 0.05 micron or more It is an object of the present invention to provide a filter assembly for dust filtration using an electromagnet capable of filtering.

1 is an exploded perspective view of the present invention.

2 is a perspective view showing an assembled state of the present invention.

3 is a cross-sectional view showing an application embodiment of the present invention.

4 is a perspective view of another embodiment of the present invention.

5 and 6 are cross-sectional views showing FIG. 4 and its application examples.

7 and 8 are reference diagrams showing the serial, parallel arrangement of the present invention.

9 is a reference diagram showing a state of use of the present invention.

* Explanation of symbols for main parts of the drawings

1, 1a: nonmagnetic casing for coil layer 2, 2a: tuck

3, 3a: coil layer 4, 4a: nonmagnetic casing for filtering element

5, 5a: magnetic powder filling layer 6, 6a, 7, 7a, 8, 8a: porous body

9, 9a: space part 100: casing for filtering system

In order to achieve the above object, the present invention inserts a circular porous body 6 on one side into a cylindrical filtering element nonmagnetic casing 4, and forms a magnetic powder filled layer 5 therein, After inserting the porous body (7) to the other side of the magnetic powder filling layer (5) again, the coil is wound around the outer surface with the jaw (2) on both ends, the coil layer for the cylindrical coil layer 3 is formed A filtering assembly for dust filtration using an electromagnet, which is intended to be inserted into a nonmagnetic casing 1.

Generally, particles having a diameter of 0.3 μm to 1.0 nm are called ultrafine particles or ultrafine particles, and these microparticles exhibit some unusual behaviors with those of ordinary particles, one of which is an increase in adhesion. This phenomenon is a representative phenomenon of the surface of the ultrafine particles, the diameter of about 30μm as the boundary with the gravity is larger than this, the gravity acts more, if the diameter is smaller than this, the adhesion is greater than the gravity, usually Gravity of the particles is proportional to the diameter of the particles, but in the case of microparticles, it is known that they are proportional to the third power of the diameter.The smaller the diameter of the particles, the greater the adhesion. This increase in adhesion is due to van der Waals, moisture It is known that the capillary attraction and the electrostatic force by the main action, and the present invention is filled with the particles of about 500 하여 by using this phenomenon, and when passed through the mixed gas of air and dust, the dust by the strong adhesion of the fine particles Adsorbed by these microparticles, it uses the principle of filtering dust. The more the filling amount, the thicker the thickness, the larger the capillary attraction due to the moderate humidity of the ultrafine particles, the lower the flow rate of the filter medium, the greater the filtering effect, and created the present invention.

In the next step, the space binding force is required to fill the microparticles in a constant volume so that the air flow continuously exists in the filtering layer. The magnetic force is applied to secure the space binding force.

The magnetic body existing in the magnetic field is applied to the principle of receiving the force from the magnetic field to make the magnetic microparticles so that the microparticles are magnetic, and to apply the magnetic field by the permanent magnet and the electromagnet respectively, the space of the magnetic microparticles Generated a binding force. It can be seen that the larger the spontaneous magnetization of the magnetic microparticles is, the greater the space binding force becomes. It is using the principle.

EMBODIMENT OF THE INVENTION Hereinafter, the structure of this invention is demonstrated by attached drawing.

1 is an exploded perspective view of the present invention, Figure 2 is a perspective view showing an assembled state of the present invention, Figure 3 is a sectional view showing an embodiment of the present invention, Figure 4 is a perspective view of another embodiment of the present invention, Figures 5 and 6 4 is a cross-sectional view showing an embodiment of the present invention and Figs. 7 and 8 are reference diagrams showing the direct and parallel arrangement of the present invention, and Fig. 9 is a reference diagram showing the use state of the present invention. , 1a) nonmagnetic casing for coil layer, (2, 2a) jaw, (3, 3a) coil layer, (4, 4a) nonmagnetic casing for filtering element, (5, 5a) magnetic filler layer, (6, 6a) , 7, 7a, 8, 8a) porous body, (9, 9a) space part, and (100) casing for filtering system.

As shown in Fig. 1, a cylindrical porous element 6 is inserted into one side of a cylindrical filtering element nonmagnetic casing 4, and a magnetic powder filling layer 5 is formed therein, and the magnetic powder filling layer 5 is described above. After inserting the porous body (7) on the other side of the back), the coil is wound around the outer surface with the jaw (2) on both ends so that the coil layer (3) is inserted into the nonmagnetic casing (1) for the cylindrical coil layer In one configuration, as shown in Fig. 3, the magnetic powder filling layer 5a having the length of about half of the nonmagnetic casing 4 for the filtering element is formed on the porous body 7 on the right side, and then the porous body 6 is inserted. In addition, the porous body 8 may be inserted into the left end of the nonmagnetic gasket 4 so that the space 9 is formed between the center porous body 6 and the left end porous body 8. .

Further, as shown in FIG. 4, the coil layer nonmagnetic casing 1a, the filtering element nonmagnetic casing 4a, and the porous bodies 6a and 7a may be formed in a quadrangle, and the rest of the configuration may be the same as the above configuration. It is a matter of course that the same tips can be changed into hexagons, octagons, rectangles, etc., which belongs to the technical scope of the present invention.

The present invention configured as described above is inserted into and used in the casing 100 for filtering system having a pipe shape as shown in FIG. 9, and an AC or DC power source is applied to the coil wound on the coil layer 3. .

In the state of FIG. 9, when air and dust are forced into the casing 100 for the filtering system, they are filtered while passing through the porous body 6, the magnetic powder filling layer 5 and the porous body 7, and the filtered air is The dust is discharged outside the casing 100 for the filtering system and the dust is filtered through the magnetic powder filling layer 5 to prevent passage.

The reason is that a magnetic field (magnetic field) is formed inside the nonmagnetic casing 1 for the coil layer by the current supplied to the coil layer 3, and the magnetic powder of the magnetic powder filling layer 5 located in the magnetic field is It has a property of staying in the magnetic field while being forced toward the center position of the nonmagnetic casing 1 for the coil layer, which is an equilibrium position of one magnetic field.

Therefore, the magnetic powders of the magnetic powder filling layer 5 are intended to exist in the magnetic field while maintaining a constant space between the magnetic powders without being pushed in the air flow direction even when the pressure of the forced air is injected.

The injected dust is adsorbed on the surface of the magnetic powder of the magnetic powder filling layer 5 by capillary attraction, van der Waals, electrostatic forces, etc., and the adsorbed dust is between the surface of the magnetic powder and the magnetic powder formed by the magnetic powder. Being stuck in the space of the circumference prevents passage, and dust filtration takes place therefrom.

The magnetic powder packing layer 5 and the porous body of the present invention are separated from various dust components and magnetic powders by using a magnetic separator, and only magnetic powders can be extracted and reused as much as possible. have.

In addition, the present invention may be used as a type in which the magnetic powder filling layer 5a is partially formed inside the nonmagnetic casing 4 for the filtering element 4 and one more porous body 8 is added. 5a) can freely pursue changes in fill thickness and diameter according to dust generation conditions and types of dust.

Therefore, changing the thickness and diameter of the magnetic powder filling layer belongs to the technical scope of the present invention.

In addition, the application embodiments of the present invention shown in Figures 4, 5 and 6 is only the form of each component is changed, the same operation and effect described for the basic terms of the present invention.

Therefore, it is also in the technical category of the present invention to change the shapes of the cross-sections of the nonmagnetic casings 1, 4 and porous bodies 6, 7, 8 into elliptical, circular, hexagonal, octagonal and polygonal shapes.

In the present invention, a plurality of nonmagnetic casings 1 for a coil layer in which the coil layers 3 are formed, as shown in FIGS. 7 and 8, may be used in a large capacity by connecting coils in series and in parallel. ) And related components can be made larger to form a large filtering assembly alone.

As described above, the present invention is not only easy to manufacture due to its simple structure, but also has no difficulty in manufacturing, and can not only control the strength of the magnetic field by electric current, but also the magnetic powder filling layer. (5) and the components of the porous body are also made of a general material, the production price is significantly lower than the conventional one because the magnetic powder filling layer is recycled and reused, ferromagnetic, nonmagnetic, soft magnetic and paramagnetic with an average particle diameter of 0.05 micron or more. It has an excellent effect of filtering dust.

Claims (3)

In the filtering assembly for electromagnet dust filtering, a cylindrical porous element 6 is inserted into one side of a cylindrical filtering element nonmagnetic casing 4, and a magnetic powder layered layer 5 is formed therein. Inserting the porous body (7) on the other side of one magnetic powder filling layer (5), the coil is wound around the outer surface with a jaw (2) at both ends, the nonmagnetic for the cylindrical coil layer formed coil layer (3) A filtering assembly for dust filtration using an electromagnet, characterized in that configured to be inserted into the casing (1). The magnetic powder filled layer (5a) according to claim 1, wherein after the circular porous body (7) is inserted into the cylindrical filtering element nonmagnetic casing (4), the magnetic powder filling layer (5a) is about half the length of the filtering element nonmagnetic casing (4). Inserting the porous body 6 and inserting the porous body 8 at the left end of the nonmagnetic casing 4 so that the space 9 is formed between the central porous body 6 and the left end of the porous body 8. Then, the dust is filtered using an electromagnet, characterized in that the coil is wound around the outer surface with a jaw (2) at both ends to be inserted into the non-magnetic casing (1) for the cylindrical coil layer formed with the coil layer (3) Filtering assembly. The cross-section of the nonmagnetic casing (1) (4), the porous bodies (6) (7) (8) and the magnetic powder filling layer (5) for the coil layer and the filtering element according to claim 1 or 2 in the form of a rectangle. Filtering assembly for dust filtration using an electromagnet, characterized in that configured to include.

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