KR100239965B1 - Filter assembly - Google Patents

Abstract

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

A rectangular porous body 10 is inserted into one side of a rectangular cylindrical nonmagnetic casing 14, and a magnetic powder filling layer 9 filled with magnetic powder is formed therein, and the magnetic powder filling layer 9 described above. After inserting the porous body 11 on the other side of the back), a plate-shaped magnetic material formed so as to face up and down against the nonmagnetic diaphragms 3 and 5 having the stages 4 and 6 formed therein. 1) (2) the bar is configured to be inserted into the bar 8, the bending portion (7a) of the iron bar (7) wound coil 8 is configured to be coupled to the upper and lower center of the magnetic material (1) (2) 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 filter 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 a liquid or gas having particles of about 1 micron or less. In the case of a filter using a filter paper of 5-50 microns in diameter, such as cellulose, carton, rayon, A mixture of polyester and artificial fibers is used as a filtration medium, and activated carbon is used to remove toxic gases and odors contained in air.

Japanese Laid-Open Patent Publication No. 57-117315 attaches a magnetic field generating device for generating a pulsed magnetic field from outside to a filtering portion of a magnetic filter formed of a thin line stainless steel and a fine stainless steel. Although a technique related to a filtration filter is characterized in that the magnetic field is applied to the filter, there is described a method for producing a filter for filtration of 0.05 micron microparticles as a filter using the conventional technology and another conventional technology, such as artificial fibers as a filter medium. In addition to the technical problem point, there is a disadvantage that the production price is very high economically.

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 the dust collection effect is excellent, filtering the 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 filtering assembly for dust filtration using an electromagnet with a characteristic capable of doing so.

1 is an exploded perspective view of the present invention.

2, 8 is a front view of the present invention.

3 and 9 are cross-sectional views of the present invention.

4, 10 are cross-sectional views of an application embodiment of the present invention.

5 and 6 are front views showing an application embodiment of the present invention.

7 is a cross-sectional view showing a state of use of the present invention.

* Explanation of symbols for main parts of the drawings

1, 2: magnetic material 3, 5: nonmagnetic diaphragm

4, 6: single 7, 7 ', 7 ", 70: steel bar

7a, 7'a, 7 "a, 71'a: bending portion 71: connecting rod

8, 8a, 8b: coil 9, 9a: magnetic powder filling layer

10, 11, 12: porous body 13: space part

14 nonmagnetic casing 100 casing for filtering system

In order to achieve the above object, the present invention inserts a rectangular porous body 10 into one side into a rectangular cylindrical nonmagnetic casing 14, and a magnetic powder filling layer 9 having a magnetic powder layered therein. After the porous body 11 is inserted into the other side of the magnetic powder filling layer 9, the upper and lower sides of the magnetic powder filling layer 9 are formed on the nonmagnetic diaphragm 3, 5 having the stages 4, 6 formed thereon. Bar (7) of the bar (7) of the iron bar (7) in which the coil (8) is wound. It relates to a filter assembly for dust filtration using an electromagnet characterized in that it is configured to be coupled to the upper and lower center of the.

Generally, particles having a diameter of 0.3 μm to 1.0 nm are called microparticles or ultrafine particles, and these microparticles exhibit some unusual behavior with that of ordinary particles, and one of them is an increase in adhesion force. The phenomenon is a representative phenomenon of the surface of the ultrafine particles, the diameter of about 30㎛ as a boundary with gravity, when the diameter is larger than this, the gravity acts more, when the diameter is smaller than this, the adhesion is greater than the gravity, Gravity of ordinary particles is proportional to the diameter of the particles, but in the case of ultrafine particles, it is known to be proportional to the third power of the diameter.The smaller the diameter of the particles, the greater the adhesion. It is known that the capillary attraction due to moisture and electrostatic force mainly acted, and the present invention fills the particles of about 500 kPa by using this phenomenon, and when the mixed gas of air and dust passes therethrough, As dust is adsorbed on the fine particles, it uses the principle of filtering the dust. The present invention was found that the higher the amount of filling, the thicker the thickness, the greater the capillary attraction due to the moderate humidity of the ultrafine particles, and the lower the flow rate of the filtrate, the greater the filtering effect.

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 ultrafine particles, the greater the space binding force.The effect of the filtering is enhanced by securing the spatial binding force in the filtering layer of the magnetic fine particles with respect to the flow of the mixed gas only when the intensity of the external magnetic field is higher than a certain value. 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, Figures 2 and 8 are a front view of the present invention, Figures 3 and 9 are cross-sectional views of the present invention, Figures 4 and 10 are a cross-sectional view of an application embodiment of the present invention, Figures 5 and Figure 6 is a front view showing an application embodiment of the present invention and Figure 7 is a cross-sectional view showing a state of use of the present invention, (1, 2) magnetic material, (3, 5) nonmagnetic diaphragm, (4, 6) stage , (7, 7 ', 7 ", 70) Chilbong, (7a, 7'a, 7" a, 71'a) Bent, (71) Connecting rod, (8, 8a, 8b) Coil, (9, 9a It can be seen that the magnetic powder filling layer, (10, 11, 12) porous body, (13) space part, (14) non-magnetic casing, and (100) casing for the filtering system.

As shown in FIG. 1, a rectangular porous body 10 is inserted into one side of a non-magnetic casing 14 having a rectangular cylindrical shape, and a magnetic powder filling layer 9 is formed therein, and the magnetic powder filling layer 9 is described above. After inserting the porous body 11 on the other side of the plate, the plate-shaped magnetic body 1 is formed so as to face up and down against the nonmagnetic diaphragm 3, 5 having the stages 4, 6 formed thereon. (2) bar is configured to be inserted into the bar, the bending portion (7a) of the iron bar (7), the coil (8) is wound is completed by engaging in the upper and lower center of the magnetic material (1) (2), As shown in FIG. 4, the magnetic powder layered layer 9a having a length about half the length of the nonmagnetic casing 14 is formed in the nonmagnetic casing 14, and the porous bodies 11 and 10 are disposed on the left and right sides thereof. The space portion 13 is formed between the porous body 12 and the porous body 11 by inserting the rectangular porous body 12 at the left end again. May be adopted.

In addition, it is natural that the height of the nonmagnetic diaphragm or the height of the magnetic material may be increased to have a rectangular shape with a short base or a rectangular shape with a long base.

At this time, the nonmagnetic casing 14 and the porous bodies 10, 11 and 12 are also proportionally changed in size.

The present invention configured as described above is inserted into and used in the casing 100 for filtering system having a rectangular pipe shape as shown in FIG. 7, and an AC or DC power source is applied to the coils 8, 8a, and 8b. do.

At this time, the iron rod 7 and the coil 8 may be exposed to the outside or may cover the iron rod 7 and the coil 8 through appropriate means in some cases.

When air and dust are forcedly injected into the casing 100 for the filtering system in the state of FIG. 7, they are filtered while passing through the porous body 11, the magnetic powder filling layer 9 and the porous body 10, 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 packing layer 9 to prevent passage.

The reason for this is that the coil 8 to which the current is applied naturally becomes an electromagnet, and the iron bar 7 supporting the coil is also magnetized.

And since the iron rod and the magnetic body (1) (2) is coupled, the magnetic body (1) (2) of course is also magnetized to form a magnetic pole, a magnetic field (magnetic field) is formed between the magnetic body (1) (2).

Since the magnetic field (magnetic field) acts at right angles to the cross section of the nonmagnetic casing 14, a magnetic field is formed in the nonmagnetic casing 14, and the magnetic powder of the magnetic powder filling layer 9 located in the magnetic field is placed. They tend to be in line with the above-mentioned magnetic lines, that is to say, to stay on their own.

Therefore, the magnetic powders of the magnetic powder layered layer 9 are not pushed in the direction of the air flow even when the pressure of the forced air is injected, and tries to exist in the magnetic field while maintaining a constant space between the magnetic powders.

The injected dust is adsorbed on the surface of the magnetic powder of the magnetic powder filling layer 9 by capillary attraction, van der Waals force, electrostatic force, etc., and the adsorbed dust is caught in the space between the magnetic powders formed by the magnetic powder. This prevents them from passing through, and from this, dust filtration takes place.

The magnetic powder filling layer 9 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, so that the economic advantages are more highlighted. There is this.

In addition, the present invention may be used as a type in which the magnetic powder filling layer 9a is partially formed inside the space portion formed by the magnetic body and the nonmagnetic diaphragm as shown in FIG. 4, and an additional porous body 12 is added. (9a) can be freely changed in size depending on the conditions of dust generation and the type of dust.

Therefore, it is within the technical scope of the present invention to change the length of the filter, the width and the length of the filter.

In addition, another embodiment of the present invention shown in Figures 8, 9 and 10 is only the form of each component is changed, the operation and effect described for the basic terms of the present invention are the same.

Therefore, it is also within the technical scope of the present invention to change the shapes of the cross sections of the nonmagnetic casing 14 and the porous bodies 10, 11, 12 into ellipses, circles, hexagons, octagons, polygons, and the like.

In the present invention, as shown in FIG. 5, the filtering assembly for dust filtration is horizontally aligned, and each of the iron bars 7, 7 ', 7 " is bonded to the magnetic body as described above, and then the respective iron bars. (7) (7 ') (7 ") The coil 8a can be wound up to cover the whole, i.e., a large-capacity type in which the iron bars 7, 7', 7" are formed in a multiple parallel manner. , As shown in FIG. 6, the coupling rod 71 is coupled to one iron rod 70, and the coupling rod 71 and the bending portion 71a of the iron rod 70 are coupled to a magnetic material, that is, formed in an integral parallel manner. You can also choose the type.

In addition, the present invention can be used in a more large-capacity type by connecting the structure of the multi-parallel and integral parallel method in the vertical, vertical, left and right.

The present invention as described above is not only easy to manufacture due to its simple structure, there is no difficulty in manufacturing, and the magnetic powder filling layer 9 can not only control the strength of the magnetic field by the current than the form using the permanent magnet. ) And the porous component is also made of a common material, the production price is significantly lower than the conventional, can be recycled and reused the powder filler, ferromagnetic, nonmagnetic, soft magnetic and paramagnetic dust with an average particle diameter of 0.05 micron or more It has an excellent effect of filtering.

Claims (3)

In the filter assembly for dust filtration using an electromagnet, a rectangular porous body 10 is inserted into one side of a rectangular cylindrical nonmagnetic casing 14, and a magnetic powder filling layer 9 filled with magnetic powder is inserted therein. After the porous body 11 is inserted into the other side of the magnetic powder filling layer 9, the magnetic powder filling layer 9 is inserted into the nonmagnetic diaphragm 3, 5 having the stage 4, 6 formed therein. The bar is formed so as to be inserted into the plate-shaped magnetic body (1) (2) facing up and down, the bent portion (7a) of the iron bar (7) wound coil 8 is the magnetic body (1) ( 2) The filtering assembly for dust filtration using an electromagnet, characterized in that configured to be coupled to the upper and lower center. The magnetic powder layered layer (9a) having a length of about half of the length of the magnetic bodies (1) and (2) is formed in the rectangular cylindrical nonmagnetic casing (14), and the porous body (11) is disposed on the left and right sides thereof. (10) is formed, and by inserting the rectangular porous body 12 at the left end again to form a space so that the space portion 13 is formed between the porous body 12 and the porous body 11, the upper and lower ends (4) (6) is a bar-shaped magnetic body (1) (2) formed so as to face up and down against the non-magnetic diaphragm (3) (5) is formed, the coil 8 is wound The filtering assembly for dust filtration using an electromagnet, characterized in that the bent portion (7a) of the iron bar (7) is configured to be coupled to the upper and lower center of the magnetic material (1) (2). The cross-sectional shape of the nonmagnetic casing (14) and the porous bodies (10) (11) and (12) according to claim 1 or 2 has an elliptical shape, and the plate shape of the magnetic bodies (1) and (2) is elliptical. Filtering assembly for dust filtration using an electromagnet characterized by having a.

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