JP3237625U - Particle filtration device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a particle filtration device for filtering a medium.
A particle filtration device includes a cylinder 1, a filtration plate 2 is fixed inside the cylinder, and a plurality of evenly arranged filtration holes 3 are formed on a wall portion of the filtration plate, and each filtration is performed. A plurality of evenly arranged serrated structures 4 are formed on the inner wall of the hole, and the plurality of serrated structures are arranged in an annular shape around the axis of a predetermined filtration hole. A plurality of hemispherical protrusions 5 are formed on the surface of the filter plate. Since the particle filtration device can effectively prevent clogging of the filtration holes and prevent the influence of the clogging of the filtration holes on the passage of the medium, it is excellent in stability in use and can improve the effect of filtration.
[Selection diagram] Fig. 1

Description

This invention belongs to the technical field of filtering a medium and is particularly related to a particle filtration device.

Filtration is a technique for obtaining a fluid to be purified by removing contaminated parts in the fluid with a predetermined device. What is removed and what is left by filtration varies, including, for example, solid-liquid, solid-liquid, large particles, small particles, and the like. Conventional filtration devices typically filter the medium through filtration holes or filtration tanks.

A paper cylinder is attached to the inside of the conventional filtration device, and the paper cylinder can filter particulate impurities in the medium. A tank is formed on the side surface of the paper cylinder, and a circular hole is formed in the center. The tank on the side surface of the paper cylinder and the circular hole in the center can filter particulate impurities in the medium. By reducing the size of the tank and the diameter of the circular holes to 1.0 mm or less, it is possible to prevent the passage of particulate impurities. However, many of the particulate impurities have a size of 1.0 mm or more, and the size of the particulate impurities is larger than the size of the tank and the diameter of the circular pores, so that the particulate impurities are different from those of a paper cylindrical tank. It may adhere to the circular holes and clog the paper cylinder tank and the circular holes. As a result, the passage of the medium may be affected and the effect of filtration may be reduced. Therefore, it is necessary to provide a new particle filtration device.

In a conventional filtration device, a tank is formed on the side surface of a paper cylinder and a circular hole is formed in the center. Particle-like impurities in the medium are filtered by the tank on the side surface of the paper cylinder and the circular hole in the center. can do. By reducing the size of the tank and the diameter of the circular holes to 1.0 mm or less, the passage of particulate impurities can be prevented. However, many of the particulate impurities have a size of 1.0 mm or more, and the size of the particulate impurities is larger than the size of the tank and the diameter of the circular pores, so that the particulate impurities are different from those of a paper cylindrical tank. It may adhere to the circular holes and clog the paper cylinder tank and the circular holes. This may affect the passage of the medium and reduce the effectiveness of filtration. An object of this invention is to provide a new particle filtration device that can solve the shortcomings of the conventional filtration device.

In order to achieve the above object, this device adopts the following technical matters.
The particle filtration device of the present invention includes a cylinder, a filtration plate is fixed inside the cylinder, and a plurality of evenly arranged filtration holes are formed on the wall portion of the filtration plate. A plurality of evenly arranged serrated structures are formed on the inner wall of the filter hole, and the plurality of serrated structures are arranged in an annular shape around the axis of a predetermined filter hole.

Preferably, a plurality of hemispherical protrusions are formed on the surface of the filter plate.

Preferably, the diameter of each of the filtration holes is 0.8 mm to 1.0 mm.

Preferably, the diameter of each of the hemispherical protrusions is 0.2 mm to 0.4 mm.

Preferably, the cylinder and the filter plate are integrally formed, and the plurality of hemispherical protrusions are all integrally formed with the filter plate.

Preferably, the thickness of the filter plate is 7.0 mm to 8.0 mm.

Compared with the conventional technique, the effect of the following invention can be obtained by the particle filtration device of this invention.
(1) When the particle filtration device of the present invention is used, particulate impurities in the gas can be filtered by a cylinder, a filtration plate and a plurality of filtration holes. Since a plurality of serrated structures are formed on the inner wall of the filter hole, even if the filter hole is clogged during filtration, the gas may pass through the filter plate due to the multiple serrated structures around the filter hole. can. Therefore, it is possible to prevent the influence on the filtration due to the clogging of the filtration holes and improve the effect of the filtration. Further, since the area of filtration can be increased by forming a plurality of filtration holes on the surface of the filter plate, and it is not necessary to form a concave tank for filtration on the side wall of the cylinder, the cylinder is made of paper. The connection area between the cylinder and the cylinder can be increased. As a result, the stability of filtration can be ensured, the area of contact between gas and mist can be increased, and heat dissipation can be ensured.

(2) In the particle filtering device of the present invention, a plurality of hemispherical protrusions are formed on the surface of the filtering plate, so that a certain gap is formed between the filtered particulate impurities and the filtering plate. Will be done. As a result, it is possible to avoid the adhesion of particulate impurities to the filtration holes and effectively prevent the filtration holes from being clogged.

Any matter not related to this invention can directly adopt the conventional technique or adopt the technique similar to the conventional technique. The particle filtration device of the present invention can effectively prevent the filtration holes from being clogged and prevent the influence of the clogging of the filtration holes on the passage of the medium, so that it has excellent stability in use and has a filtering effect. Can be improved.

It is a figure which shows the structure of the particle filtration apparatus which concerns on embodiment of this invention. It is a figure which shows the structure of the side surface of the filter plate in FIG.

Hereinafter, the technical matters relating to the embodiment of the present invention will be described in more detail with reference to the drawings relating to the embodiment of the present invention. The following examples are merely examples of the present invention and do not represent all the examples of the present invention.

Referring to FIGS. 1 and 2, the particle filtration device of the present invention includes a cylinder 1, a filtration plate 2 is fixed inside the cylinder 1, and is evenly arranged on the wall portion of the filtration plate 2. A plurality of filtration holes 3 are formed, a plurality of sawtooth structures 4 evenly arranged are formed on the inner wall of each filtration hole 3, and the plurality of sawtooth structures 4 are axial lines of a predetermined filtration hole 3. It is arranged in a ring around the.

A plurality of hemispherical protrusions 5 are formed on the surface of the filter plate 2. By forming the plurality of hemispherical protrusions 5, it is possible to prevent particulate impurities from adhering to the filtration holes 3 and prevent the filtration holes 3 from being clogged.

Since the diameter of each of the filtration holes 3 is 0.8 mm to 1.0 mm, the effect of filtration of the filtration holes 3 can be ensured.

Since the diameter of each hemispherical protrusion 5 is 0.2 mm to 0.4 mm, the effect of the hemispherical protrusion 5 (the effect of preventing particulate impurities from adhering to the filtration hole 3) is ensured, and the effect of the hemispherical protrusion 5 is ensured. It is possible to avoid the influence on the effect of filtration due to the diameter of the hemispherical protrusion 5 being too large.

The cylinder 1 and the filter plate 2 are integrally formed, and the plurality of hemispherical protrusions 5 are all integrally formed with the filter plate 2. As a result, the strength of the connection can be ensured and the convenience of manufacturing can be improved.

By providing the thickness of the filter plate 2 to 7.0 mm to 8.0 mm, the strength of the filter plate 2 can be ensured and the medium can be ensured to pass through the filter plate 2.

When the particle filtration device of the present invention is used, the particulate impurities in the gas can be filtered by passing the gas through the cylinder 1, the filtration plate 2, and the plurality of filtration holes 3. When filtering, even if the filtration hole 3 is clogged, the gas can pass through the filtration plate 2 by the plurality of serrated structures 4 around the filtration hole 3, so that the influence on the filtration due to the clogging of the filtration hole 3 can be prevented. .. Further, since the area of filtration can be increased by forming a plurality of filtration holes 3 on the surface of the filter plate 2, and it is not necessary to form a concave tank for filtration on the side wall of the cylinder 1, the cylinder is cylindrical. The connection area between 1 and the paper cylinder can be increased. As a result, the stability of filtration can be ensured, the area of contact between gas and mist can be increased, and heat dissipation can be ensured.

Although the preferred embodiment of the present invention has been described in detail above, the above-mentioned embodiment is merely an example of the present invention, and the present invention is not limited to the configuration of the above-mentioned embodiment. Engineers in this technical field can make design changes and improvements within the scope of the gist of the present invention, and even if there are such design changes and improvements, the request for utility model registration of the present invention can be made. Naturally, it is included in the range.

1 Cylindrical 2 Filtration plate 3 Filtration hole 4 Sawtooth structure 5 Hemispherical protrusion

Claims (6)

A plurality of particle filtration devices including a cylinder (1), in which a filtration plate (2) is fixed inside the cylinder (1) and are evenly arranged on the wall of the filtration plate (2). (3) is formed, and a plurality of evenly arranged serrated structures (4) are formed on the inner wall of each of the filtering holes (3), and the plurality of serrated structures (4) are formed. Is a particle filtration device characterized in that the particles are arranged in a ring around the axis of a predetermined filtration hole (3). The particle filtration device according to claim 1, wherein a plurality of hemispherical protrusions (5) are formed on the surface of the filtration plate (2). The particle filtration device according to claim 1, wherein the diameter of each of the filtration holes (3) is 0.8 mm to 1.0 mm. The particle filtration device according to claim 2, wherein each of the hemispherical protrusions (5) has a diameter of 0.2 mm to 0.4 mm. The claim is characterized in that the cylinder (1) and the filter plate (2) are integrally formed, and the plurality of hemispherical protrusions (5) are all integrally formed with the filter plate (2). 2. The particle filtration device according to 2. The particle filtration device according to claim 1, wherein the filter plate (2) has a thickness of 7.0 mm to 8.0 mm.

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