WO2020022807A1 - Porous filter - Google Patents

Abstract

The present invention relates to a porous filter comprising: a filter body which forms an inlet and an outlet for air to flow, and has a receiving space formed therein; a mesh net provided in the receiving space of the filter body; activated carbon attached to a surface of the mesh net; and a mesh cover for closing the inlet and the outlet of the filter body, respectively.

Description

Porous filter

The present invention relates to a porous filter, and more particularly, the activated carbon can be uniformly and easily filled in the filter main body, so that the manufacturing is quick and the air flow and the amount of filtration are uniformed by preventing the activated carbon from being tilted even when the filter main body is tilted. It relates to a porous filter that can improve the reliability of the product.

In general, the air filter is a filter for filtering odor components, fine dust, bacteria, and the like (hereinafter referred to as 'foreign substances') in the air, and a form filled with a filter core such as activated carbon and zeolite having excellent adsorption to foreign substances. Is made of.

As a related art with respect to the air filter, Korean Patent No. 10-1522199 (2015.05.15) discloses a filter and a manufacturing method of an air conditioner. The filter according to the prior art forms a filter main body 13 having a honeycomb-shaped compartment structure as shown in FIG. 1, and after filling the activated carbon 16 in the compartment 12 of the filter main body 13, the filter The front and rear of the main body 13 is made of a mesh net 14, 15 to finish the structure to prevent the departure of activated carbon.

However, the filter according to the prior art as described above forms a plurality of compartment structures in the filter main body 13 and the activated carbon 16 should be uniformly filled in each compartment 12, but the process of filling the activated carbon 12 into the compartment 12 In the difference in the amount of activated carbon 16 is filled in the compartment 12 will occur.

That is, one compartment 12 is excessively filled with activated carbon and the other compartment 12 is insufficiently filled with activated carbon 16. As such, as the activated carbon 16 is differently filled in the compartment 12 formed in the filter main body 13, the air flow and the amount of filtration are different, so that the reliability of the product is not only low, but the activated carbon 16 is excessively activated in the compartment 12. In this case, the first mesh 14 and the second mesh 15 do not adhere to the filter main body 13, and thus the activated carbon 16 is separated from the compartment 12.

In addition, in the prior art filter, since the activated carbon is filled in the compartment 12 of the filter main body 13, the activated carbon 16 is oriented in the direction of gravity action as the filter main body 13 is inclined, so that in the compartment 12 There is a problem in that the voids (spaces between the activated carbons) are not uniform and the air flow is not uniform, so that foreign substances in the air passing through the compartment 12 cannot be sufficiently filtered.

The present invention is to solve the above problems, it is possible to fill the activated carbon in the filter body uniformly and easily, even if the filter body is inclined to prevent the tendency of activated carbon to uniform air flow and filtration amount of the product The purpose is to provide a porous filter that can improve the reliability.

According to the technical idea of the present invention for achieving the above object, the filter main body to form an inlet and discharge port so that air flows and the receiving space therein, and a mesh network provided in the receiving space of the filter body And, it is achieved by a porous filter comprising an activated carbon attached to the surface of the mesh network and a mesh cover for closing the inlet and outlet of the filter body respectively.

Here, the activated carbon is preferably attached to the surface of the mesh network by an adhesive.

In addition, the mesh net is provided with a plurality of mesh nets in the receiving space of the filter body, the plurality of mesh nets is preferably more or less the adhesion amount of the activated carbon from the inlet to the outlet.

In addition, it is preferable that the filter main body has a stepped stepped step formed continuously on the inner side of the accommodation space, and the mesh net is placed in correspondence with the stepped step.

In addition, the mesh cover is preferably fixed by heat fusion along the edge of the inlet and outlet.

According to the porous filter according to the present invention, the activated carbon can be uniformly and easily filled in the filter main body by being laminated on the filter main body with activated carbon attached to the mesh network, and prevent the tip of the activated carbon even if the filter main body is tilted. To improve the reliability of the product by making the air flow and filtration uniform.

In addition, the present invention can be prepared by applying an adhesive to the surface of the mesh network and spraying activated carbon to form a mesh network and activated carbon integrally to produce a porous filter with a simple and rapid production process.

In addition, in the present invention, since activated carbon is attached to the surface of the mesh network, the size and shape of the mesh network can be easily changed, and the mesh network can be modified and applied to suit the shape of the filter main body.

1 is a perspective view showing a filter according to the prior art.

2 is an exploded perspective view showing a porous filter according to the present invention.

3 is a cross-sectional view showing a porous filter according to the present invention.

Figure 4 is a cross-sectional view showing another embodiment of a porous filter according to the present invention.

5 is a cross-sectional view showing another embodiment of a porous filter according to the present invention.

6 to 8 are views showing another embodiment of the filter body of the porous filter according to the present invention.

The terms or words used in this specification and claims should not be construed as being limited to the common or dictionary meanings, and the inventors can appropriately define the concept of terms in order to explain their invention in the best way. Based on the principle, it should be interpreted as meaning and concept corresponding to the technical idea of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is an exploded perspective view showing a porous filter according to the present invention, Figure 3 is a cross-sectional view showing a porous filter according to the present invention.

Referring to the drawings, the porous filter according to the present invention is the filter body 110, the mesh network 120 provided on the filter body 110, activated carbon 130 attached to the surface of the mesh network 120 , The mesh cover 140 to close the inlet and outlet of the filter body 110.

In detail, the filter body 110 has a rectangular frame shape as shown in FIGS. 2 and 3, but forms inlets and outlets on one side and the other side thereof so that air can flow, and a plurality of mesh networks therein. The accommodation space 112 is formed so that the 120 can be stacked.

The filter body 110 is not limited to the shape of the rectangular frame may be variously modified. For example, the filter body 110 forms a column such as a circle, an ellipse, and a polygon, but forms an accommodation space 112 so that the mesh network 120 can be stacked therein, and air flows on one side and the other side. Inlet and outlet can be formed so as to be.

For example, as shown in FIGS. 6 and 8, the filter main body 110 may have a cylindrical shape or may have a curved plate shape.

In addition, the filter body 110 may be made of metal, synthetic resin, and the like.

The mesh network 120 is provided in the accommodation space 112 of the filter body 110 as described above. At this time, the mesh network 120 is made of a material of metal or synthetic resin and has a form of a plate formed with a continuous mesh.

Then, the mesh network 120 is attached to the activated carbon 130 on the surface of the air introduced through the inlet of the filter body 110, foreign matter is filtered by the activated carbon 130 attached to the surface of the mesh network 120 Is discharged to the discharge port in a closed state.

In this way, the mesh net 120 to which the activated carbon 130 is attached is meshed while the mesh net 120 is precipitated in a bath containing adhesive while the wound mesh net 120 is moved by a feeder such as a feeder. An adhesive is applied to the surface of the mesh 120, and activated carbon may be integrally formed with the mesh net 120 by spraying activated carbon onto the surface of the mesh net 120 that has passed through the water tank.

In addition, the mesh net 120 having the activated carbon 130 attached to the surface may be quickly manufactured by passing through a dryer for drying the adhesive and a cutting device for cutting the mesh net 120 to a predetermined length.

As such, the mesh net 120 having the activated carbon 130 attached to the surface is provided in the accommodation space of the filter main body 110, wherein the mesh net 120 provided in the accommodation space 112 of the filter main body 110 is stably provided. Inlet and outlet of the filter body 110 is closed by the mesh cover 140, respectively, so that it can be fixed by.

At this time, the finish of the mesh cover 140 is fixed by heat fusion along the edge of the inlet and outlet, the mesh cover 140 is preferably made of the same material as the filter body 110, the mesh cover 140 and the filter body The film is integrally fused by heat applied to the edge of the 110.

At this time, the mesh of the mesh cover 140 is formed smaller than the size of the activated carbon 130 attached to the mesh network 120 so that the activated carbon 130 is separated from the mesh network 120 to the outside of the filter body 110 To prevent leakage.

As described above, the activated carbon 130 may be uniformly and easily filled in the filter main body 110 as the activated carbon 130 is attached to the mesh network 120 in the filter main body 110. Even when the main body 110 is inclined, the activated carbon 130 is prevented from being tilted, thereby making the air flow and filtration uniform, thereby improving the reliability of the product.

In addition, the present invention is because the mesh network 120 and the activated carbon 130 is integrally formed by applying an adhesive on the surface of the mesh network 120 and spraying the activated carbon 130, the production process is simple and rapid porous filter Can be prepared.

In addition, the present invention, since the activated carbon 130 is attached to the surface of the mesh net 120, it is possible to easily change the size or shape of the mesh net 120, mesh mesh 120 to suit the shape of the filter body 110 It can be applied by modifying.

Meanwhile, the present invention is not limited to the above-described embodiments, but may be modified and modified without departing from the scope of the present invention, and such modifications and variations should be regarded as belonging to the technical spirit of the present invention. .

For example, the mesh network 120 stacked on the filter body 110 may vary the amount of the activated carbon 130 depending on its position or may adjust the size of the activated carbon 130 attached to each mesh network 120. It may also increase the filtration effect. This will be described based on FIG. 4.

Figure 4 is a cross-sectional view showing another embodiment of a porous filter according to the present invention. Referring to the drawings, the mesh network 120 stacked in the receiving space 112 of the filter body 110, the adhesion amount of the activated carbon 130 attached to the surface of the filter body 110 toward the discharge port from the inlet It can be much or less.

In addition, the mesh network 120 may be larger or smaller in size from the inlet to the outlet of the filter body 110 with the activated carbon 130 attached to the surface thereof. As such, the activated carbon 130 attached to the mesh network 120 stacked in the accommodation space 112 of the filter main body 110 may be selectively applied by the filtration apparatus in which the porous filter of the present invention is installed. It will increase the filtration effect.

In some cases, as shown in FIG. 5, the filter main body 110 has a stepped stepped step 114 formed continuously on the inner side of the accommodation space 112, and meshes corresponding to the stepped step 114. The network 120 may be enclosed.

As the mesh network 120 is placed in the stepped stepped 114 formed in the accommodation space 112 of the filter main body 110 as described above, the stacking interval of the mesh net 120 may be adjusted by the difference between the stepped steps. The amount of filtration of air passing through the inlet and the outlet of the filter body 110 can be selectively adjusted, so that the mesh network 120 is unnecessarily stacked on the filter body 110 to prevent the air flow from being disturbed. have.

In addition, the porous filter according to the present invention may be provided in a state in which a plurality of mesh network 120 is stacked in the receiving space of the filter body 110, as shown in Figures 2 to 7 in some cases As shown in the figure may be provided along the inner circumferential surface of the filter body 110 having a cylindrical shape.

In the filter main body 110 having a cylindrical shape as described above, a communication hole through which air is communicated along the outer circumferential surface may be formed, and the mesh network 120 may be provided in a cylindrical shape along the inner circumferential surface of the filter main body 110.

In addition, the activated carbon 130 is attached to the surface of the mesh net 120 having a cylindrical shape, the mesh net 120 is attached to the activated carbon 130 is wrapped in the mesh cover 140 in the mesh net 120 The fallen activated carbon 130 is prevented from leaking to the outside of the filter body 110.

The present invention is applicable to porous filters.

Claims (5)

1. A filter main body which forms an inlet and an outlet to allow air to flow therein and has a receiving space therein;

   A mesh net provided in the accommodation space of the filter main body;

   Activated carbon attached to a surface of the mesh network; And

   And a mesh cover closing the inlet and the outlet of the filter body, respectively.
2. The method according to claim 1,

   The activated carbon is a porous filter, characterized in that attached to the surface of the mesh network by an adhesive.
3. The method according to claim 1,

   The mesh network is provided with a plurality of mesh networks in the accommodation space of the filter body,

   The plurality of mesh network is a porous filter, characterized in that the amount of adhesion of the activated carbon increases or decreases from the inlet to the outlet.
4. The method according to claim 1,

   The filter body

   A stepped stepped step is continuously formed on the inner surface of the accommodation space, characterized in that the mesh network is placed corresponding to the stepped.
5. The method according to claim 1,

   The mesh cover is

   Porous filter, characterized in that fixed by heat fusion along the edge of the inlet and outlet.

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