KR20230073505A - Combination Multi-filter - Google Patents

Abstract

The present invention relates to a combination type composite filter, and more specifically, to a combination type composite filter which uses a filter with a large surface area due to a pleated shape, improves the efficiency of a porous adsorbent integrated with a filtration media, and is formed in a laminated structure by mixing pulp and carbon to have deodorizing and antibacterial functions, thereby making it easy to purify polluted dust. The composite filter of the present invention comprises: a first filter composed of a pleated structure to expand the surface area and having a function of purifying polluted dust; a second filter located on one side of the first filter, composed of a cardboard-shaped laminated structure by mixing pulp and carbon, and provided with the deodorizing and antibacterial functions; and a frame located outside the first filter and the second filter, composed of a rectangular shape, and maintaining the shapes of the first filter and the second filter.

Description

Combined multi-filter {Combination Multi-filter}

The present invention relates to a combined composite filter, and more particularly, uses a filter having a pleated shape and thus has a large surface area, increases the efficiency of a porous adsorbent integrally combined with a filter medium, and has a laminated structure by mixing pulp and carbon. It is formed of a deodorizing and antibacterial function, so it relates to a combined type composite filter that is easy to purify polluted dust.

Indoor and outdoor air levels and environments are facing serious problems due to global warming and high rates of air pollution.

Fine dust is a suspended substance in the air with various complex components generated during vehicle exhaust and road driving. Exposure to fine dust is related to the occurrence of respiratory and cardiovascular diseases, increases mortality, Dust particles as small as a micrometer are a major threat because they can enter the lungs and bloodstream.

Accordingly, interest in a filter that purifies even ultra-fine dust in order to lower the indoor fine dust balance is increasing.

In addition to fine dust, many studies have been conducted on filters that purify indoor pollutant gases such as ammonia, toluene, and acetaldehyde.

In addition, domestically and internationally, the importance of odor removal and antibacterial measures to prevent bacteria and viruses, and to maintain indoor habitability comfortably is increasing.

Filters currently used do not completely purify ultrafine dust, viruses and gases when purifying fine dust, and the cost burden is high.

Since the filter is not an integral filter, but has a purification filter and a deodorization filter, it is used without filtering effect by interaction, raising questions about its efficiency.

In addition, there is a problem of changing and developing a structure in order to add a deodorizing filter to an air purifying device that used only an existing purifying filter.

Accordingly, there is a growing need for a filter that is integrally formed to collect even ultra-fine dust and effectively remove even polluted gas during air purification.

(Patent Document 1) KR 10-2019-0034207 A

(Patent Document 2) KR 10-1354677 B1

The present invention was invented to solve the above problems, adsorbing and purifying fine dust using a filter having a function of purifying polluted dust, and purifying polluted air using a filter having a deodorizing and antibacterial function, An object of the present invention is to provide a combined composite filter in which a filter having a purification function and a filter having deodorizing and antibacterial functions are integrally combined to effectively purify polluted air.

The object of the present invention is not limited to the object mentioned above, and other objects not mentioned will be clearly understood from the description below.

In the combination type composite filter according to the present invention for achieving the above object, it is composed of a pleated structure to widen the surface area, the first filter having a function to purify polluted dust; a second filter located on one side of the first filter, composed of a laminated structure in the form of corrugated cardboard by mixing pulp and carbon, and having deodorizing and antibacterial functions; and a frame positioned outside the first filter and the second filter, formed in a rectangular shape, and maintaining the shape of the first filter and the second filter. Combined composite filter consisting of.

In addition, the first filter and the second filter are characterized in that the thermal compression bonding method characterized in that the technical feature.

In addition, the technical feature of the first filter is that the pitch is composed of a set value capable of minimizing deformation of the filter material and performance loss.

In addition, the second filter is characterized in that 95% or more of ammonia, toluene, formaldehyde, acetaldehyde and acetic acid are removed.

In addition, the technical feature of the first filter is that the porous adsorbent is integrally combined with the filter medium, but the particle shape of the porous adsorbent is maintained to maximize the efficiency of the porous adsorbent applied to the first filter.

The present invention according to the above configuration can expect the following effects.

It becomes possible to purify the polluted dust using a filtration filter having a purification function of the polluted dust.

In order to maximize the function of the filter, it is possible for the porous adsorbent to be bonded by thermocompression bonding.

Specifically, the filtration filter and the porous adsorbent are integrally combined, and filtering can be maximized by maintaining the shape of the filter and the porous adsorbent.

It is possible to remove polluted gas particles by using a deodorizing filter having deodorizing and antibacterial functions.

It is possible to maximize deodorization and antibacterial function by mixing pulp and carbon and forming it in the form of corrugated cardboard.

This makes it possible to remove 95% or more of ammonia, toluene, formaldehyde, acetaldehyde and acetic acid.

By integrally combining the filtering filter and the deodorizing filter, it is possible to efficiently remove polluted gas molecules and dust.

In the prior art, the deodorizing filter was not provided, so there was a problem that the efficiency decreased and the cost increased by forming an additional one. However, in the present invention, the filter and the deodorizing filter are combined to maximize efficiency and reduce cost. do.

In addition, when combined with the device, it is possible to minimize the overload of the device by determining the pitch and arithmetic with optimal setting values.

1 is a configuration diagram of a combination-type composite filter according to a preferred embodiment of the present invention.
2 is a detailed view of a first filter in a combination-type composite filter according to a preferred embodiment of the present invention.
Figure 3 is a detailed view of the second filter in the combined composite filter according to a preferred embodiment of the present invention.

Hereinafter, a combined composite filter according to a preferred embodiment of the present invention will be described with reference to the accompanying drawings.

1 is a configuration diagram of a combined composite filter according to a preferred embodiment of the present invention, Figure 2 is a detailed view of a first filter in a combined composite filter according to a preferred embodiment of the present invention, Figure 3 is a preferred embodiment of the present invention It is a detailed view of the second filter in the combined composite filter according to an embodiment.

Combination-type composite filter according to a preferred embodiment of the present invention may be composed of a first filter 110, a second filter 120 and a frame 100 as shown in FIG.

First, a look at the first filter 110.

The first filter 110 is located inside the frame 100 to be described later, and can serve as an air purifying filter to adsorb and purify fine dust with high efficiency.

The first filter 110 may have a thickness twice as wide as that of the second filter 120 to be described later in order to increase the efficiency of purifying polluted dust.

In addition, the size of the first filter 110 can be formed in various ways according to the size of the device, but in the present invention, it may be possible to form a thickness of 10 mm.

In addition, since the shape of the filter paper has a pleated structure, the surface area is formed to be large, and purification is possible.

In detail, it may be possible to purify up to 99% of harmful substances such as house dust, mites and viruses, and fine dust of about 0.3 micrometers, which is the most harmful to the human body.

The first filter 110 may be formed of various grades of HEPA filters and Ulpa filters, but it may be preferable to use filters appropriate for the situation and environment.

Specifically, the HEPA filter grade 13 or higher can purify up to 0.3 micrometer fine dust, and has a collection efficiency of 99.979%, so it can have a high dust collection efficiency. function may be lacking.

In addition, the Ulpa filter can purify up to 0.1 micrometer fine dust, but the purification area is small, so the cost is high and efficiency may decrease when used in a wide place.

Therefore, in the present invention, it may be desirable to use the HEPA filter capable of reducing costs while maintaining high efficiency.

Since the first filter 110 is made of asbestos fiber, which is a special electrified fiber, function degradation may occur when exposed to moisture, so that a porous adsorbent may be integrally combined to increase the adsorption rate.

In detail, since it has a pleated structure in the form of a filter paper, in order to prevent the porous adsorbent from being unable to maintain the pleated structure or from reducing the efficiency of the porous adsorbent when the porous adsorbent is combined, the boundary of the protrusion of the porous adsorbent is strongly compressed by a thermal compression method. It may be possible to maximize efficiency by maintaining the corrugated structure.

As the porous adsorbent, it may be possible to use various adsorbents such as zeolite, alumina and silica gel.

Porous adsorbents have excellent moisture absorbing power, and it may be desirable to increase safety by using adsorbents having components harmless to the human body.

In the first filter 110, the silica gel and the filter medium may be integrally combined, but the particle shape of the silica gel may be maintained to maximize adsorption efficiency.

The first filter 110 may have a pitch set to a set value in order to increase the efficiency of dust collection, and may reduce the differential pressure of the air flow or minimize the overload of the device.

It may be possible to minimize performance loss by applying process optimization that adjusts the left and right operating angles during the heat treatment process and the cutting process in order to prevent deformation of the filter material that occurs during the lamination of the first filter 110 and bending of the filter material.

Next, look at the second filter (120).

It is located above the first filter 110 and can play a role of optimizing deodorization, antibacterial and antiviral effects.

The second filter 120 may be formed in various sizes, but is formed in a shape lower than the first filter 110 and has a thickness of 5 mm in order to maximize the adsorption effect by being combined with the first filter 110. it may be possible to become

The second filter 120 may be capable of preventing pollutants generated indoors from being discharged to the outdoors due to a decrease in the amount of natural ventilation flowing into the room and remaining indoors to prevent odor and bacterial growth.

In addition, it may be possible to purify polluted air that cannot be filtered by the first filter 110 .

The second filter 120 may be capable of adsorbing and removing odor and polluted air through fine holes using a carbon material filter.

Specifically, it may be formed of carbon non-woven fabric, carbon urethane, carbon corrugated carbon, and honeycomb carbon activated carbon depending on the type of filter medium used for air purification such as removal of dioxin from combustion gas, other harmful gases, and deodorization.

The carbon nonwoven fabric is developed as a deodorizing and harmful substance adsorbent using high-quality activated carbon, so that the adsorption rate is up to 100 times higher than that of granular activated carbon, and it is easy to process fibrous and can be used for a long time.

The carbon urethane is formed in a three-dimensional structure, adheres to a filter medium and high-performance activated carbon powder, has excellent performance in adsorbing harmful substances such as odors, dust, and microbes, and can be widely used because of convenient handling and processing.

The carbon corrugate is formed in a laminated structure in the form of corrugated cardboard and has a high pollutant removal efficiency, and is used in a plate and cylinder structure, and may have a high removal rate of five major harmful gases of the CA standard.

The honeycomb carbon activated carbon is formed in a honeycomb shape of 1.3 mm to 4 mm in diameter, so it is possible to strongly deodorize and adsorb harmful bacteria, and various catalyst adhesive processing is possible, and it is possible to control the efficiency and pressure loss by adjusting the amount of filling. there is.

Accordingly, the second filter 120 has excellent air permeability and workability to maximize the air purification function, and it may be preferable to use the carbon corrugated gate in consideration of convenience and visual aspects of mass production.

In addition, the second filter 120 removes 99% of ammonia, 97% of toluene, 99% of formaldehyde, 98% of acetaldehyde, and 98% of acetic acid, and it may be possible to remove 95% or more of CA standard five harmful gases. .

The second filter 120 has a laminated structure in the form of corrugated cardboard by mixing pulp with a wetting function that prevents the input of water and bacteria except for air, and carbon, which is a very light material that is elastic and resistant to corrosion and absorbs contaminated air. that could be possible

Specifically, it may be configured by mixing pulp and carbon to form a fabric, laminating flat and wave-shaped fabrics, and then cutting them.

Accordingly, it may be possible to minimize pressure loss by adsorbing activated carbon on the surface and to have high deodorization efficiency by adsorbing and removing harmful substances or toxic gases.

The second filter 120 may be configured by being combined with the first filter 110 .

In the prior art, the purification filter and the deodorization filter are separated, so that the efficiency of the filter is reduced or the structure of the device is changed to use an additional deodorization filter in the purification filter.

However, in the present invention, it may be possible to combine the first filter 110 and the second filter 120 integrally.

The first filter 110 and the second filter 120 may be compressed by a thermal compression method to maintain the structure of the filter medium, so that the adsorption effect may be maintained during filtering.

Accordingly, the first filter 110 and the second filter 120 may be combined in a complex manner to maximize filtering efficiency.

In detail, high-performance dust collection may be possible by removing molecular unit gas particles such as formaldehyde and sulfur dioxide having a size smaller than fine dust that cannot be purified by the first filter 110 .

In addition, it becomes possible to replace the filter without changing the structure of the existing device or designing a new one.

After the first filter 110 and the second filter 120 are combined, in order to prevent efficiency from being reduced during a high-temperature bending process, a heat treatment process may be added for shape stability after bending.

It may be preferable that the second filter 120 is made of a filter medium having test results by confirming performance and efficiency degradation of the filter medium.

Next, look at the frame 100.

The frame 100 is positioned outside the first filter 110 and the second filter 120, is formed in a rectangular shape, and has a shape of the first filter 110 and the second filter 120. It can play a role in maintaining

The frame 100 may be formed in various shapes, but in consideration of the pitches of the first filter 110 and the second filter 120, one side is formed of 133 mm and the other side is formed in a rectangular shape composed of 138 mm. it may be possible to become

In order to fix the first filter 110 having a thickness of 10 mm and the second filter 120 having a thickness of 5 mm to the frame 100, it may be possible to form the thickness of the frame 100 to 16 mm.

Specifically, when the first filter 110 and the second filter 110 are positioned on the frame 100, the first filter 110 is positioned at a distance of 0.5 mm from the lower side of the frame to the upper direction. And, it may be possible to be located at a distance of 0.5 mm from the upper side of the frame of the second filter 120 in the lower direction.

Thus, it is possible to prevent the first filter 110 and the second filter 120 from being damaged during transportation and coupling of the present invention.

In addition, although various materials can be used for the frame 100, it may be desirable to use a flexible material so that it is resistant to damage and easy to install.

Based on the above configuration, the operating state of the present invention will be examined.

It becomes possible to prepare for use by coupling the combination type composite filter to the filter coupling space of the purification device.

At this time, it is possible that the second filter 120 is located on the upper side and the first filter 110 is located on the lower side based on the direction in which the air is introduced.

Thus, it is possible to optimize antibacterial, deodorizing, antiviral and purification effects.

The second filter 120 makes it possible to firstly remove 95% or more of ammonia, toluene, formaldehyde, acetaldehyde, and acetic acid from the introduced air.

The first filter 110 can purify up to 99.97% of fine dust harmful to the human body, such as house dust and tick viruses, by using a second strong suction power from the air introduced from the second filter 120 .

In addition, the first filter 110 can maximize the adsorption rate by using a porous adsorbent.

Accordingly, the air introduced into the purification device can be discharged after being deodorized, antibacterial, antiviral, and purified according to the present invention.

According to the present invention, it is possible to replace filters every 2 to 3 months in consideration of air purification efficiency, thereby reducing filter replacement costs.

The above embodiment is merely an example, and other embodiments variously modified therefrom are possible to those skilled in the art.

Therefore, the true technical protection scope of the present invention should include not only the above embodiments but also variously modified other embodiments according to the technical spirit of the invention described in the claims below.

100: frame
110: first filter
120: second filter

Claims (5)

In the composite filter,
A first filter composed of a pleated structure to increase the surface area and having a function of purifying polluted dust;
a second filter located on one side of the first filter, composed of a laminated structure in the form of corrugated cardboard by mixing pulp and carbon, and having deodorizing and antibacterial functions; and
a frame positioned outside the first filter and the second filter, formed in a rectangular shape, and maintaining the shape of the first filter and the second filter; Combined composite filter consisting of. According to claim 1,
Wherein the first filter and the second filter are combined combined filter, characterized in that coupled by a thermocompression bonding method. According to claim 1,
The first filter is a combined composite filter, characterized in that the pitch is composed of a set value that can minimize the deformation of the filter material and the performance loss part. According to claim 1,
The second filter is a combination type composite filter, characterized in that 95% or more of ammonia, toluene, formaldehyde, acetaldehyde and acetic acid are removed. According to claim 3,
The first filter is a combined type composite filter, characterized in that the porous adsorbent is integrally combined with the filter medium, the particle form of the porous adsorbent is maintained, and the efficiency of the porous adsorbent applied to the first filter is maximized.

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