KR102040166B1 - Filters for removing fine particles and manufacturing method the same - Google Patents

Abstract

The present invention relates to a filter for removing fine foreign substances and a manufacturing method thereof to effectively remove fine foreign substances not through a simple mesh form filter method but through an adsorption method, minimize loads according to air inflow by forming an air flow path in a filter, reduce burden of various filtering devices and expand the service life. The filter comprises: a filter body having the shape with a certain thickness; an air flow path penetrating the filter body in the thickness direction; and an adsorption material which is applied on the inner wall surface of the air flow path and to which fine foreign substances in the air are attached.

Description

Filter for removing fine particles and manufacturing method thereof

The present invention relates to a filter for removing fine foreign matter, and effectively removes fine foreign matter through adsorption rather than a simple mesh-type filter, and minimizes the load due to air inflow by forming an air flow path in the filter itself. The present invention relates to a filter for removing fine foreign substances and a method of manufacturing the same, to reduce the burden and increase the service life.

In general, filters are widely used in air purifiers, air conditioners, vehicles, semiconductor cleaners, and experimental devices. Various foreign matters including fine dust are removed through a filter made of mesh type.

Particularly in the case of fine dust, the causes are various and are divided into natural sources such as soil dust or pollen, and artificial sources such as smoke emitted from boilers and power generation facilities, automobile exhaust, construction site and road dust, and open-air incineration. Such micro-dust diseases include various respiratory diseases such as asthma and rhinitis, and cardiovascular diseases such as angina pectoris and stroke.

However, the conventional mesh type filter adopts a very compact filter structure in order to increase the filtering performance, and this filter structure increases the load of the blower device forcibly passing air because the inflow of air is not smooth. There was a problem of not exhibiting performance or causing failure.

As a related prior art, Patent No. 10-1842647 (Method for manufacturing fine dust blocking fabric filter and its fabric filter) includes two or more plain weave fabric filters stacked side by side to simultaneously weave them in a multi-layer weave. Weave at more than one point so that the inclination between the upper and lower layers is closely spaced apart from each other at the same position, and squeezed sideways. A technology having an integrated weaving structure is disclosed by connecting a fabric filter between upper and lower layers while weaving.

However, the prior art may be suitable for the insect repellent screen to block the inflow of fine dust as a filter in the form of overlapping fabrics, but when applied to the part to be moved smoothly, such as air purifiers, air conditioners, car filters There is a problem in that the load caused by the air flow adversely affects the device.

As another prior art, Patent No. 10-1317615 (the filter structure of the air purifier) and the filter roll of the synthetic resin film formed by forming an embossing projection and the permanent static electricity is formed in a roll around the central axis, and the filter roll In the filter structure of the air purifier composed of a transparent induction case to accommodate, in the front end of the filter roll of the synthetic resin film provided with a bundle filter medium composed of a fine fiber yarn of a certain length by the generation of static electricity by the fine fiber yarn of the bundle filter material Disclosed is a technique configured to capture or purify the extremely fine dust and odor components.

However, as in the prior art, the electrostatic filter has a problem in that adsorption performance and fine dust collection amount do not meet expectations, and it is difficult to adsorb fine foreign matter not affected by static electricity.

The present invention has been made in order to solve the above problems, and not the mesh type of filtering method, the incoming air passes through the air oil formed in the filter body to effectively adsorb and remove only fine foreign matter so that only clean air can pass. It is an object of the present invention to provide a filter for removing fine foreign matter and a method of manufacturing the same, which can greatly reduce the burden on a device forcibly generating air such as an air blower through a structure capable of removing fine foreign matter without significantly disturbing the flow of air. have.

The present invention includes a filter main body having a predetermined thickness, an air flow passage formed in the thickness direction of the filter main body, and an adsorbent material applied to the inner wall surface of the air flow path to which fine foreign matter contained in the air is attached. It is characterized by consisting of a configuration.

In addition, the air flow path is formed in a spiral, it characterized in that the fine foreign matter attached to the adsorption material by the centrifugal force of the incoming air.

In addition, the diameter of the air passage is characterized in that consisting of a size of 0.1mm ~ 10mm.

In addition, the adsorbent material is characterized in that it is applied in a thickness of 0.1㎛ ~ 200㎛ in the air flow path.

The present invention, the filter body having a shape of a constant thickness; An air flow passage formed in the thickness direction of the filter body; A method for fabricating a filter for removing fine foreign matter, comprising: an adsorption material applied to an inner wall surface of the air flow path to which fine foreign matter contained in air is attached. The method includes: preparing a filter main body in which an air flow path is formed; Stage 1; Inserting one surface of the filter body into a tank filled with the adsorption material and filling the adsorption material in the entire air passage through the first vacuum suction on the opposite side; And three steps of removing and leaving a predetermined thickness of the adsorbent material in the air passage through the second vacuum suction at one side of the filter main body filled with the adsorbent material. In the second step, the vacuum suction device and the tank filled with the adsorbent material are provided. In the third step, a vacuum suction device and a jig device for fixing the filter main body are used, and the air flow path is formed in a spiral shape so that the fine material can be attached to the adsorbent material by the centrifugal force of the incoming air. It provides a manufacturing method of a filter for removing fine foreign matter.

The present invention, the filter body having a shape of a constant thickness; An air flow passage formed in the thickness direction of the filter body; Adsorbent material is applied to the inner wall surface of the air flow path is attached to the fine foreign matter contained in the air; a manufacturing method of the filter for removing fine foreign matter consisting of a configuration, the method comprises a spiral tube shape having a predetermined thickness of the air flow path Separately manufacturing steps; And integrally coupling the air flow path into the filter body in a double injection method, wherein the air flow path is made of an environmentally friendly material, and the filter body is made of a material resistant to external impact, and is composed of different materials. The air flow path is formed in a spiral, it provides a method for producing a filter for removing fine foreign matter, characterized in that the fine foreign matter to be attached to the adsorption material by the centrifugal force of the incoming air.

In the present invention, the fine foreign matter does not simply pass through the air flow path, but forms the shape of the air flow path in a spiral shape, and thus, due to the centrifugal force generated due to the spiral shape of the air flow path in the process of passing the air flow path. There is an effect that can provide clean air removed while fine foreign matter hit the adsorbent material applied to the inner wall surface of the air oil.

In addition, the present invention can minimize the load caused by the air flow because it is possible to remove the fine foreign matter without significantly disturbing the flow of air, thereby greatly reducing the burden of the device forcibly generating the air flow, such as an air blower As a result, it can increase the service life and prevent breakdown caused by overload.

Figure 1 is a perspective view showing a filter for removing fine foreign matter of the present invention
Figure 2 is an enlarged cross-sectional view showing the air flow of the filter for removing fine foreign matter of the present invention
3 is a diagram showing one step of preparing a filter body in which an air flow path is formed in a method of manufacturing a filter according to the present invention.
Figure 4 is a view showing two steps of filling the adsorption material in the entire air flow path in the filter manufacturing method according to the present invention
5 is a view showing three steps of removing and leaving a certain thickness of the adsorption material in the filter manufacturing method according to the present invention.
6 to 7 is a view showing another embodiment of a filter for removing fine foreign matter according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, if it is determined that a detailed description of a related known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The filter for removing foreign matters of the present invention is a technology of a structure in which foreign matters are adsorbed in the process of inflow of air, rather than an air filter, an air purifier, an air conditioner, a vehicle blower, a semiconductor cleaner, an experiment apparatus, etc. It is appropriate to apply.

The filter for removing foreign matters of the present invention includes a filter main body 10 having a predetermined thickness as shown in FIG. 1, an air flow passage 20 formed in the thickness direction of the filter main body 10, and the Adsorption material 30 is applied to the inner wall surface of the air flow path 20 is attached to the fine foreign matter contained in the air; characterized in that consisting of a configuration comprising a.

The filter body 10 is configured to form the overall shape of the filter, except for the air flow path 20 of the filter, the air flow is blocked and does not perform the function of filtering. The filter body 10 may be made of various materials. Preferably, the filter body 10 may be made of PE or PP and a synthetic resin-based material.

The air flow path 20 is formed in the form in which the plurality of air flow paths 20 are arranged at a predetermined interval through the filter body 10 formed in the thickness direction. The preferred shape of the air flow path 20 is formed in a spiral as shown in Figures 1 to 2 to facilitate the adsorption of foreign matter by the centrifugal force acting on the fine foreign matter of the incoming air.

In addition, the air flow path 20 of the present invention shown in the drawings is shown in an enlarged form to help understand, but in order to obtain a smooth filtering effect in actual use is made of a fine size. The size of the air flow path 20 is preferably formed in a size of 0.1mm ~ 10mm in diameter, the reason is that if less than 0.1mm there is a problem that the entire air flow path 20 is blocked by foreign matter, exceeding 10mm This is because the foreign matter is not filtered and passes through the air passage 20.

The adsorbent material 30 is evenly applied to the inner wall surface of the air flow path 20 to remove fine foreign matter in the air, the preferred coating thickness is preferably made in the range of 0.1㎛ ~ 200㎛, if less than 0.1㎛ smooth If the adsorption performance is difficult to expect and exceeds 200 μm, the adsorption performance is inefficient compared to the amount of the adsorption material 30 used.

As a method for uniformly applying the adsorbent material 30 to the inner wall surface of the air passage 20, as shown in FIGS. 3 to 5, a first step (S-1) of preparing a filter main body having an air passage formed therein; Putting the one surface of the filter body into the tank filled with the adsorption material and filling the adsorption material in the entire air passage through the first vacuum suction on the opposite side (S-2); At one side of the filter body filled with the adsorbent material, the third step (S-3) of leaving the adsorbent material of a predetermined thickness in the air passage through the second vacuum suction is carried out.

 In the second step (S-2), the water tank 50 filled with the vacuum suction device 40 and the adsorption material 30 is used, and in the third step (S-3), the vacuum suction device 40 'and the filter body ( A jig device 60 for fixing 10 may be used.

According to the present invention, the adsorbent material 30 may be uniformly applied to the inner wall surface of the minute air path 20 through the adsorbing material 30.

Referring again to the filtering process of the present invention made as described above, fine foreign matter by the centrifugal force generated by the spiral shape of the air flow path 20 in the process of passing the air flowing through the air flow path 20, the air flow path 20 ) After hitting the adsorption material 30 applied to the inner wall surface is removed, only the clean air can go out. Therefore, the filter of the present invention can minimize the load caused by the air flow because it can remove the fine foreign matter without significantly disturbing the flow of air, thereby reducing the burden of the device forcibly generating the air flow, such as an air blower It can be greatly reduced.

6 to 7 is another embodiment of the present invention, the air flow path 20 is not formed directly on the filter body 10, the filter body 10 and the air flow path 20 is composed of different materials Example. That is, the air flow path 20 is separately manufactured in the form of a spiral tube having a predetermined thickness to be configured to be integrally coupled in the filter body 10. The method of integrally coupling the separately manufactured air flow path 20 to the filter main body 10 may be, for example, a manufacturing method using a double injection method, but may be made as many as possible through other methods of manufacturing. .

The advantage obtained when the material of the filter body 10 and the air passage 20 are configured differently is that the material of the air passage 20, which plays an important role in the filtering, is composed of environmentally friendly materials and is not responsible for filtering. The material of the filter body 10 has an advantage of being made of a material that is resistant to external impact to form the most efficient. In addition, by applying an environmentally friendly material corresponding to relatively expensive raw materials only to the air flow path 20, it has an effect that can significantly reduce the manufacturing cost than applying the environmentally friendly material to the entire filter body (10).

In the above, the present invention has been described with reference to the above embodiment, but various modifications are possible within the technical scope of the present invention.

10: filter body
20: air flow path
30: adsorption material
40, 40 ': Vacuum suction device
50: tank
60: jig device

Claims (4)

A filter body having a predetermined thickness shape;
An air flow passage formed in the thickness direction of the filter body;
An adsorbent material applied to an inner wall surface of the air flow path to which fine foreign matters contained in the air adheres.
Preparing a filter main body in which an air flow path is formed;
Inserting one surface of the filter body into a tank filled with the adsorption material and filling the adsorption material in the entire air passage through the first vacuum suction on the opposite side; And
And a third step of removing the adsorbent material having a predetermined thickness in the air passage through the second vacuum suction at one side of the filter body filled with the adsorbent material.
In the second step, a vacuum suction device and a water tank filled with adsorption material are used, and in the third step, a vacuum suction device and a jig device for fixing the filter main body are used.
The air flow path is formed in a spiral, fine particles can be attached to the adsorption material by the centrifugal force of the air flows in the manufacturing method of the fine foreign matter removal filter, characterized in that. A filter body having a predetermined thickness shape;
An air flow passage formed in the thickness direction of the filter body;
An adsorbent material applied to an inner wall surface of the air flow path to which fine foreign matter contained in air is attached.
Separately manufacturing the air passage in the form of a spiral tube having a predetermined thickness; And
And integrally coupling the air flow path into the filter body in a dual injection method.
The air flow path is made of an environmentally friendly material and the filter body is made of a material that is resistant to external impact, and is composed of different materials. The air flow path is formed in a spiral shape, and the fine foreign matter is absorbed by the centrifugal force of the inflowing air. Method for producing a filter for removing fine foreign matter, characterized in that to be attached. The method according to claim 1 or 2,
The diameter of the air flow path is a manufacturing method of the fine foreign material removal filter, characterized in that formed in the size of 0.1mm ~ 10mm. The method according to claim 1 or 2,
The method of manufacturing a filter for removing fine foreign matter, characterized in that the adsorbent material is applied in an air flow path with a thickness of 0.1 μm to 200 μm.

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