KR102214881B1 - Air filter media and air filter - Google Patents

Abstract

An object of the present invention is to provide an air filter filter medium containing a natural extract component, in which the physical strength is unlikely to decrease even when affected by moisture.
An air filter media comprising a breathable base material, wherein the breathable base material has a specific internal bonding strength and contains a natural extract component, and an air filter formed by using the air filter media.

Description

Air filter media and air filter {AIR FILTER MEDIA AND AIR FILTER}

The present invention relates to an air filter media.

Recently, with the spread of air conditioners, it has become possible to see many living environments in which indoor air is purged using an air purifier instead of ventilation of indoor air by opening and closing windows.

The substances collected by the air filter of the air purifier include fungi, viruses, allergens derived from mites and pollen, spores of mold, and the like. Since these substances cause diseases, it is desired to deactivate them on the collected air filter.

In particular, antibacterial properties against fungi represented by E. coli or Staphylococcus aureus are important characteristics of the air filter. In order to deactivate fungi, a method of including an antimicrobial agent in a breathable substrate contained in an air filter media is common. As the antimicrobial agent, an antimicrobial agent produced by synthesis and an antimicrobial agent comprising a natural extract component are roughly classified. Recently, due to the growing interest in safety, an antimicrobial agent comprising a natural extract component is preferably used.

For example, as an effective air filter against bacteria, fungi, viruses, etc., an air filter (for example, see Patent Document 1) having a material containing an extract component of tea and a fungicide is disclosed. Further, as an effective air filter against fungi and viruses, an air filter carrying ginkgo leaf extract (for example, see Patent Document 2) is disclosed.

As an effective air filter against allergens, an air filter carrying a catechin of a car (for example, see Patent Document 3), an air filter carrying an enzyme (see, for example, Patent Document 4), and the like are disclosed. Further, a mask (for example, see Patent Document 5) in which an aromatic hydroxy compound is supported as an anti-allergen component is disclosed, and use as an air filter is expected.

By the way, since most of these natural extract components are rich in hydrophilicity, air filter media containing natural extract components are affected by moisture in the air, and thus their physical strength tends to decrease over time. There is a unique task. As the physical strength is lowered, the structure of the air filter is changed and the air permeability of the air filter is deteriorated, which is not preferable. However, no effective countermeasures for this problem have been disclosed so far.

Patent Document 1: Japanese Patent Laid-Open Publication No. Hei 10-315 Patent Document 2: Pamphlet of International Publication No. 2006/011541 Patent Document 3: Japanese Patent Laid-Open Publication No. 2000-5531 Patent Document 4: Japanese Patent Laid-Open Publication No. 2003-210919 Patent Document 5: Japanese Patent Laid-Open Publication No. 2003-79756

An object of the present invention is to provide an air filter filter medium containing a natural extract component, in which the physical strength is less likely to decrease even under the influence of moisture.

The present invention is an invention characterized in that the air filter media contains a breathable substrate, the breathable substrate has a specific internal bonding strength, and contains a natural extract component.

That is, the present invention,

1.As an air filter media subjected to pleats processing, the air filter media contains a breathable base material having an internal bonding strength of 65 to 250 mJ, and a thickness of 0.1 to 1.0 mm, and the breathable base material is a natural extract component Air filter media, characterized in that it contains.

2. As an air filter media that is not subjected to pleated processing, the air filter media contains a breathable base material having an internal bonding strength of 65 to 250 mJ, and a thickness of 1.0 to 15 mm, and the breathable base material is a natural extract component. Air filter media, characterized in that it contains.

3. An air filter media in which a support substrate and a charged melt blown nonwoven fabric or a charged spunbond nonwoven fabric are laminated and integrated, wherein the support substrate has an internal bonding strength of 65 to 250 mJ, and a breathable substrate having a thickness of 0.1 to 1.0 mm. Air filter media comprising, wherein the breathable substrate contains a natural extract component.

4. Any one of the above 1 to 3, wherein the natural extract component is at least one selected from the group of coffee bean extract, grapefruit seed extract, mugwort leaf extract, forsythia extract, and calcium oxide compound obtained by firing the shell Air filter media described in.

5. An air filter formed by using the air filter media according to any one of 1 to 4 above.

The antimicrobial air filter media of the present invention can inactivate fungi collected on the air filter due to the effect of the natural extract component, and also has the effect that the physical strength of the air filter is difficult to decrease even if it is influenced by moisture in the air. Is obtained.

Hereinafter, the antibacterial air filter media of the present invention will be described in detail.

Examples of the air filter media in the present invention include three types of air filter media of the following A to C.

A. Air filter media with pleated processing

B. Air filter media without pleated processing

C. Air filter media in which the support substrate and the antistatic melt blown nonwoven fabric or the antistatic spunbond nonwoven fabric are laminated and integrated

In the air filter media A, after the air filter media is pleated, it is molded to form an air filter. In the air filter media B, the air filter media is not subjected to pleated processing, but is molded from a flat plate to form an air filter. In the air filter media C, after the support base material and the charged melt blown nonwoven fabric or the charged spunbond nonwoven fabric are laminated and integrated, the air filter media is subjected to pleating processing, and then molded to form an air filter.

In the air filter media A, the air filter media contains a breathable base material having an internal bonding strength of 65 to 250 mJ and a thickness of 0.1 to 1.0 mm, and the breathable base material contains a natural extract component. To do.

In the air filter media B, the air filter media contains a breathable base material having an internal bonding strength of 65 to 250 mJ and a thickness of 1.0 to 15 mm, and the breathable base material contains a natural extract component. do.

In the air filter media C, the support substrate contains a breathable substrate having an internal bonding strength of 65 to 250 mJ and a thickness of 0.1 to 1.0 mm, and the breathable substrate contains a natural extract component. do.

Internal bond strength (sometimes referred to as “crack resistance”) refers to JAPAN TAPPI (J. TAPPI) paper pulp test method No.18-2:2000 “Paper and cardboard-inner bond strength test method-Part 2: This refers to the physical properties described in “Paper and board-Determination of internal bond strength Part 2: Internal bond tester method”.

In the present invention, the air filter media contains a breathable substrate having a grain resistance of 65 to 250 mJ. The stiffening strength of the breathable substrate is more preferably 80 to 230 mJ, and still more preferably 85 to 210 mJ. In the present invention, the breathable base material contains a natural extract component, but since this natural extract component is hydrophilic, when the stiffness strength of the breathable base material is less than 65 mJ, it is affected by moisture in the air, and the physical strength increases over time. It deteriorates, the structure of the air filter changes, and the air permeability of the air filter deteriorates, which is not preferable. In addition, in the air filter media A and C, cracks may occur in the air filter media when pleated processing is performed. In addition, in the air filter media C, when the pleat processing is performed, the charged melt blown nonwoven fabric or the charged spunbond nonwoven fabric and the support substrate are peeled off at the bent portion, and when molding with an air filter, this peeled portion is caught, The air filter media may crack, which is not preferable. On the other hand, when the stiffening strength of the breathable substrate is more than 250 mJ, the number of fibers constituting the breathable substrate increases, or the amount of adhesive added for reinforcement increases, resulting in fewer voids between the fibers, resulting in poor ventilation of the air filter. , Not desirable.

In the present invention, the method of adjusting the stiffening strength of the breathable base material within a specific range is not particularly limited as long as it is a method of strengthening entanglement between fibers constituting the breathable base material, and for example, constituting the breathable base material. Achieved by increasing the number of fibers, increasing the intersection point of each fiber, applying an adhesive to the intersection point of each fiber to improve the adhesion between the fibers at the intersection point, and reinforcing the entanglement of each fiber itself. can do.

In the case of the air filter media A to which pleating is performed, the thickness of the breathable substrate is 0.1 to 1.0 mm, more preferably 0.2 to 0.9 mm, and still more preferably 0.3 to 0.7 mm. If the breathable substrate is thinner than 0.1 mm, the physical strength is inferior, and thus cracks may occur during pleating processing, which is not preferable. On the other hand, if the air permeable base material is thicker than 1.0 mm, the sharpness of the peak shape of the bent portion of the pleats is inferior, and therefore the air permeability of the air filter media may be inferior, which is not preferable.

In the case of the air filter media B in which the pleating process is not performed, the thickness of the breathable substrate is 1.0 to 15 mm, more preferably 2 to 12 mm, and still more preferably 3 to 10 mm. If the air permeable substrate is thinner than 1.0 mm, the dust collecting efficiency may deteriorate, which is not preferable. On the other hand, if the air permeable base material is thicker than 15 mm, the air permeability of the air filter media may be inferior, which is not preferable.

In the case of the air filter filter material C in which the support substrate and the charged melt blown nonwoven fabric or the charged spunbond nonwoven fabric are laminated and integrated, the thickness of the breathable substrate is 0.1 to 1.0 mm, more preferably 0.2 to 0.9 mm, and even more preferably 0.3. ~0.8mm. If the breathable substrate is thinner than 0.1 mm, the physical strength is inferior, and thus cracks may occur during pleating processing, which is not preferable. On the other hand, if the air permeable base material is thicker than 1.0 mm, the air permeability of the air filter media may be inferior, which is not preferable.

In the present invention, the natural extract component is extracted from a natural product. Examples of the natural extract component include tea leaf extract, ginkgo leaf extract, pine cone extract, lacquer pear extract, and the like, but in the present invention, coffee bean extract, grapefruit seed extract, mugwort leaf extract, forsythia extract and shells are calcined as natural extract components. It is preferable to use at least one selected from the group of the obtained calcium oxide compounds. In the case where the natural extract component is at least one selected from these groups, the effect that the physical strength of the air filter is less likely to be lowered even further under the influence of moisture in the air is obtained.

The coffee bean extract is a hydrophilic natural extract component extracted from raw coffee beans, and is known to contain a large amount of chlorogenic acids. The inventors of the present invention have found that coffee bean extract has excellent antibacterial properties, and have come to the present invention. The natural extract component extracted from coffee beans after roasting is not preferable because the content of chlorogenic acids is significantly lower than that of fresh coffee beans. Chlorogenic acid has been known to have a strong antioxidant activity in the past, and in recent years, attention has been paid to the energy consumption and fat breakdown of chlorogenic acids and caffeine, which are natural extracts extracted from raw coffee beans. Is being done. Chlorogenic acid is composed of a cinnamic acid derivative and an ester of quinic acid, and the natural extract components extracted from raw coffee beans include 3-caffeoylquinic acid, 4-caffeoylquinic acid, 5-caffeoylquinic acid, and 3,4-dicaffeoylquinic acid. , 3,5-dicaffeoylquinic acid, 4,5-dicaffeoylquinic acid, and 5-feruloylquinic acid are found to contain seven types of chlorogenic acids.

The dry content of the coffee bean extract is preferably 3 to 10 g/m ² , more preferably 4 to 9 g/m ² , and still more preferably 5 to 8 g/m ² with respect to the breathable substrate. When the dry content is less than 3 g/m ² , sufficient antimicrobial properties may not be obtained. If the dry content is more than 10 g/m ² , sufficient antimicrobial properties are obtained, but there is a possibility that a peculiar odor derived from a natural extract may be unpleasant to a sensitive person.

The grapefruit seed extract is a hydrophilic natural extract component extracted from the seed of an immature fruit of grapefruit. The inventors of the present invention have found that grapefruit seed extract has excellent antibacterial properties, and have come to the present invention. The method of extracting the natural extract component from grapefruit seeds is not particularly limited, and can be obtained according to the method disclosed so far. In addition, the extracted natural extract component may be used as it is, and if necessary, a purified, concentrated, and dried component may be used as a powder, or a diluted one may be used.

The amount of the active ingredient of the grapefruit seed extract is preferably 0.01 to 10 g/m ² , more preferably 0.05 to 9 g/m ² , and still more preferably 0.1 to 8 g/m ² with respect to the breathable substrate. When the amount of the active ingredient is less than 0.01 g/m ² , sufficient antimicrobial properties may not be obtained. When the amount of the active ingredient is more than 10 g/m ² , sufficient antimicrobial properties are obtained, but there is a possibility that the peculiar odor derived from the natural extract may be unpleasant to a sensitive person.

The mugwort leaf extract is a hydrophilic natural extract component extracted from dried mugwort leaves. Mugwort leaves are a plant of the Asteraceae family, and have been put in mugwort rice cakes and mugwort dumplings for a long time and are used for food. On the other hand, in oriental medicine, mugwort leaves are called aeyeop (艾葉), and are used as hemostasis, pain relief, and tonic. In addition, it is famous that ae made from the dried foliage of mugwort is used as moxibustion. The main component extracted from mugwort leaves is tannin, and the inventors of the present invention discovered that the mugwort leaf extract has excellent antimicrobial properties, and reached the present invention. The method of extracting the natural extract component from mugwort leaves is not particularly limited, and can be obtained according to the method disclosed so far. For example, a natural extract component extracted with hot water from dried mugwort leaves can be used. Further, the extracted natural extract component may be used as it is, or, if necessary, a purified, concentrated, and dried component may be used as a powder, or a diluted one may be used.

The dry content of the mugwort leaf extract is preferably 1 to 10 g/m ² , more preferably 2 to 9 g/m ² , and still more preferably 3 to 8 g/m ² with respect to the breathable substrate. When the dry content is less than 1 g/m ² , sufficient antimicrobial properties may not be obtained. If the dry content is more than 10 g/m ² , sufficient antimicrobial properties are obtained, but there is a possibility that a peculiar odor derived from a natural extract may be unpleasant to a sensitive person.

피부병등의 진통약에 이용되고 있으며, 친유성의 트리테르펜, 모노테르펜글리코시드, 친수성의 리그난을 포함한다. 이 경우, 개나리의 성숙 과실을 한 번 증기에 통과시킨 후, 햇볕에 건조하여 이용된다. 본 발명에 있어서도, 성숙 과실 및 그 내부의 종자로부터 추출된 천연 엑기스 성분을 사용할 수 있다. 본 발명의 발명자들은, 개나리로부터 추출된 천연 엑기스 성분에 항균성이 있는 것을 발견하여, 본 발명에 이르렀다.Forsythia extract is a natural extract component extracted from dried forsythia fruit. Forsythia, Japanese name: Renkyo (連蓍), scientific name: Forsythia suspensa(Thunb.) Vahl, is a deciduous low-tree broad-leaved tree of the genus Forsythia. The nickname is Renkyoutsuki (連翹空木), and the old names are Itachihaze, Itachigusa. The Chinese name is Hwangshoudan (黃壽丹), and the English name is golden bells (golden bell flower). In oriental medicine, “renkyo” is an antipyretic, anti-inflammatory, diuretic, draining agent, tumor

It is used in pain relievers such as skin diseases, and contains lipophilic triterpene, monoterpene glycoside, and hydrophilic lignan. In this case, the mature fruit of forsythia is passed through steam once, and then dried in the sun for use. Also in the present invention, a natural extract component extracted from mature fruits and seeds therein can be used. The inventors of the present invention found that the natural extract component extracted from forsythia had antibacterial properties, and came to the present invention.

The dry content of the forsythia extract is preferably 1 to 10 g/m ² , more preferably 2 to 9 g/m ² , and still more preferably 3 to 8 g/m ² with respect to the breathable substrate. When the dry content is less than 1 g/m ² , sufficient antimicrobial properties may not be obtained. If the dry content is more than 10 g/m ² , sufficient antimicrobial properties are obtained, but there is a possibility that a peculiar odor derived from a natural extract may be unpleasant to a sensitive person.

The calcium oxide compound obtained by firing the shell (shell calcined CaO) means that the shell is calcined at a high temperature of preferably 700°C or higher, more preferably 1000°C or higher, and even more preferably 1100°C or higher, and carbonic acid, the main component of the shell, is It is a natural calcium oxide compound obtained by removing carbon dioxide from calcium. As the shell, shells such as oysters, scallops, pearl shells and clams are used, but shells such as oysters and scallops that are mainly cultured can be preferably used. The calcium oxide compound obtained by firing this shell is dissolved in water, and the aqueous solution exhibits alkalinity. The aqueous solution may have a pH of 10 or more, and further, a strong alkaline aqueous solution of pH 12 or more is obtained. This strong alkali aqueous solution of shell-fired CaO exhibits a strong sterilizing effect. Moreover, even with shell-fired CaO itself, a strong sterilizing effect is expressed.

The dry content of the shell-fired CaO is preferably 0.5 to 10 g/m ² , more preferably 1.0 to 9 g/m ² , and still more preferably 3.0 to 8 g/m ² with respect to the breathable substrate. Do. When the dry content is less than 0.5 g/m ² , sufficient antimicrobial properties may not be obtained. When the dry content is more than 10 g/m ² , sufficient antimicrobial properties are obtained, but there is a possibility that a peculiar odor derived from shell-fired CaO may be unpleasant to a sensitive person.

In the present invention, it is preferable to use at least one natural extract component selected from the group of coffee bean extract, grapefruit seed extract, mugwort leaf extract, forsythia extract and shell-fired CaO, which is, as described above, this group. This is because the natural extract ingredients of are excellent antibacterial properties. In addition, from users of air filters, air filter media containing a novel and intimate natural extract component are preferred to suit the various lifestyles and preferences. As described above, the natural extract components of this group are derived from foods and beverages, pharmaceuticals, taste products, and the like, and thus have an advantage that the user can be accepted without having an intimacy and safety concerns. In addition, since lifestyle habits and preferences are influenced by countries or regions, the effect that the user feels easy to use psychologically is obtained by incorporating natural extracts suitable for the country or region in the air filter media. For example, coffee beans, grapefruit, mugwort leaves, shellfish are produced and consumed, and in countries or regions that prefer forsythia for horticulture (Asia region, especially Korea), this effect is high.

As the characteristics of the air filter, in addition to antibacterial properties, when antiviral properties, antiallergenic properties, mold resistance, etc. are required, other natural extract components can be used in combination. As a natural extract component that can be used in combination, for example, tea leaf extract (catechin), ginkgo leaf extract, pine cone extract, lacquer oleracea extract, etc. can be exemplified, but it is not limited to these natural extract components.

In the present invention, the breathable substrate to be used can be appropriately selected from sheet-like materials such as non-woven fabric and paper, but the non-woven fabric is preferable from the viewpoint of easy control of fiber blending, weight per unit area, thickness, etc., and easy post-processing. It can be mentioned as a base material. There is no particular limitation on the manufacturing method of the nonwoven fabric, but the spunbond method, melt blow method, dry method (carding method, thermal bond method, resin bond method, needle punch method, spunlace method, stitch bond method), wet method, electrostatic spinning method, etc. At least one method can be selected and used from the methods. If necessary, a plurality of these methods can be combined.

복합하여, 2종 이상으로 사용해도 된다.As raw materials for sheet-like materials, polyamide-based, polyester-based, polyalkylene paraoxybenzoate-based, polyurethane-based, polyvinyl alcohol-based, polyvinylidene chloride-based, polyvinyl chloride-based, polyacrylonitrile-based, poly( Synthetic resins such as meth)acrylic ester, polyolefin, and phenol; inorganic materials such as glass, metal, alumina, carbon, and activated carbon; wood pulp, bamboo pulp, hemp pulp, kenaf pulp, straw pulp, bagasse pulp, Natural products such as cotton linter pulp, cotton, wool, and silk; recycled paper pulp; recycled cellulose such as rayon and cupra; proteins such as collagen; polysaccharides such as alginic acid, chitin, chitosan, and starch. You may impart a function such as hydrophilicity and flame retardancy to these materials. These materials may be used alone or mixed

It may be used in combination of two or more.

As a method of containing (supporting) the natural extract component in the sheet-like material, there is no particular limitation as long as it is a method in which the natural extract component can be contained on the surface of the sheet-like material as uniformly as possible. For example, a method in which a natural extract component is added as a solution or dispersion, to a sheet-like material by a method such as coating, impregnation, or spraying, and a solvent or dispersion medium is removed by a method such as drying, to contain the natural extract component. I can. Moreover, a method of containing a natural extract component by means such as kneading a resin or metal used as a raw material for a sheet-like material is also mentioned. In addition to the above method, in the step of forming a sheet of raw fiber using a paper machine when manufacturing paper or nonwoven fabric by a wet method, a method of adding a natural extract component to the raw fiber slurry to form a sheet together is also mentioned.

In the case of containing a natural extract component with a strong binding force to the breathable substrate, or when improving the appearance of the product by combination or coloring with other components, etc., a small amount of binder within the range that does not impair the effect of the natural extract component (Adhesive) can be used.

As a water-soluble binder, polyvinyl alcohol, starch, etc. are mentioned, for example. Moreover, as a water-dispersible binder, poly(meth)acrylic acid ester, polyvinyl acetate, polyvinyl chloride, styrene-butadiene latex, etc. are mentioned, for example. The binder that can be used in the present invention is not limited to these.

The grain resistance strength of the sheet-like material may be within a range in which the grain strength of the breathable substrate containing the natural extract component is 65 to 250 mJ, and there is no particular limitation, but it is preferably 60 to 245 mJ, more preferably 62 to 242 mJ, More preferably, it is 65-240mJ. In the case where the sheet-like material has a grain strength of less than 60 mJ or greater than 245 mJ, the grain strength of the breathable substrate may not fall within a predetermined range.

In the case of the air filter media A to which the pleats are processed, the thickness of the sheet-like material may be within a range in which the thickness of the breathable substrate is 0.1 to 1.0 mm, and there is no particular limitation, but it is preferably 0.1 to 1.0 mm, more preferably It is 0.2 to 0.9 mm, more preferably 0.3 to 0.7 mm. When the sheet-like material is thinner than 0.1 mm or thicker than 1.0 mm, the thickness of the breathable substrate may not fall within a specific range.

In the case of the air filter media B not subjected to pleated processing, the thickness of the sheet-like material may be within a range in which the thickness of the breathable substrate is 1.0 to 15 mm, and there is no particular limitation, but it is preferably 1.0 to 15 mm, more preferably Is 2 to 12 mm, more preferably 3 to 10 mm. When the sheet-like material is thinner than 1.0 mm or thicker than 15 mm, the thickness of the breathable substrate may not fall within a specific range.

In the case of the air filter media C in which the support base material and the charged melt blown nonwoven fabric or the charged spunbond nonwoven fabric are laminated and integrated, the thickness of the sheet-like material may be within a range in which the thickness of the breathable base material is 0.1 to 1.0 mm, and there is no particular limitation, It is preferably 0.1 to 1.0 mm, more preferably 0.2 to 0.9 mm, and still more preferably 0.3 to 0.8 mm. When the sheet-like material is thinner than 0.1 mm or thicker than 1.0 mm, the thickness of the breathable substrate may not fall within a specific range.

Examples of the raw material of the charged melt blown nonwoven fabric or the charged spunbond nonwoven fabric include polyolefin resins, polyester resins, polyamide resins, acrylic resins, and the like. Among these, it is preferable to use polypropylene, which is a polyolefin resin, from the viewpoint of easiness of spinning and good charging properties. In addition, the method of charging the melt blown nonwoven fabric or spunbond nonwoven fabric is not particularly limited, and a method of performing a nonwoven fabric between a pair of electrodes to which a direct current is applied, a method of applying a direct current corona discharge to the nonwoven fabric, etc. Can be mentioned.

The breathable substrate can be used as it is as a support substrate for the air filter media A and B and the air filter media C. Further, a composite of the breathable substrate and other sheet-like materials by bonding or the like can be used as the support substrate for the air filter media A and B and the air filter media C.

In the method of pleating processing in the air filter media A and C in the present invention, the blades arranged one at a time above and below move alternately, so that the reciprocating type of sandwiching the air filter media or the air filter media at high speed. A line-up type in which lines at regular intervals are formed while being conveyed is mentioned, and any method may be used as long as the desired pleated product is obtained. The air filter media A, B, and C in the present invention are supported by a frame body and molded into an air filter. Examples of the frame body include paper, corrugated cardboard, nonwoven fabric, and resin.

The bonding (lamination) method of the support base material in the air filter media C of the present invention and the charged melt blown nonwoven fabric or the charged spunbond nonwoven fabric is not particularly limited, and a thermal bonding method, heat pressing using an embossing roll or an ultrasonic head Physical methods such as a heat bonding method such as a needle punch method, a water flow interlocking method, etc. are mentioned. Thermal bonding using a thermal bonding method using an adhesive is preferable since the relatively amount of fiber is strongly bonded between the two layers.

In addition, if necessary, in order to stably contain natural extract components by means of a breathable base material, to sustain the effects such as antibacterial properties for a longer period of time, and to alleviate the peculiar odor derived from the natural extract component, a porous powder (e.g. For example, activated carbon or zeolite powder, etc.) may be contained in an air filter media containing a breathable substrate. In addition, if necessary, for the purpose of adding other performances without departing from the spirit of the present invention, deodorization, antibacterial, mold, antiviral, insect repellent, insecticide, deodorization, aroma, temperature reduction, heat retention, storage temperature, heat storage, Various functions such as heat absorption, heat absorption, waterproofing, water resistance, water repellency, hydrophobicity, hydrophilicity, dehumidification, humidity control, moisture absorption, adsorption of oil, lipophilic oil, oil, and various functions such as evaporation or sustained release of water or volatile agents are newly added. You can do it.

The air filter media and the air filter of the present invention are attached to and used in an air treatment device using forced supply and exhaust by machinery such as an air conditioner, air cleaner, vacuum cleaner, dehumidifier, dryer, humidifier, ventilation fan, electric fan, and heat exchanger. Preferred effects, such as inactivation of, are obtained. In addition, the air filter media and air filter of the present invention may be used for the outside air inlet (vent, window, etc.) for natural air supply and exhaust.

Example

Hereinafter, the present invention will be described more specifically by way of examples, but the present invention is not limited to the examples. In addition, "%" and "parts" in the examples represent "mass%" and "mass parts", respectively, unless otherwise limited.

Each natural extract component used what was obtained or prepared by the following method.

Coffee bean extract (abbreviation: coffee): As a natural extract component extracted from coffee beans, (brand name) carphenol P-100 manufactured by FUJI CHEMICAL INDUSTRY, CO., LTD. was used.

Grapefruit seed extract (abbreviation: GF): As a natural extract component extracted from the seeds of grapefruit, (brand name) grapefruit seed extract D-100 manufactured by Matsuo Yakuhin Sangyo Co., Ltd. was used.

Mugwort leaf extract (abbreviation: mugwort): As a natural extract component extracted from mugwort leaves, (brand name) mugwort dried extract F manufactured by Maruzen Pharmaceuticals (MARUZEN PHARMACEUTICALS CO., LTD.) was used.

Forsythia extract (abbreviation: forsythia): A natural extract component extracted from mature fruits and seeds of forsythia was used by the following method.

분액하여 하층부를 얻었다. 그 하층부를 감압 농축하여, 갈색의 점조물을 얻었다. 그 점조물을 약 30배의 프로필렌글리콜 및 정제수의 혼합액(용적비 8:2)에 용해하여, 미량의 불용물을 여과지 여과하여, 8g의 개나리 천연 엑기스 용액을 얻었다. 본품 1g은, 건조한 개나리 건조 엑기스 0.1g에 상당한다.To 1 kg of mature fruits and seeds of forsythia, 8 kg of a mixture of ethanol and purified water (volume ratio of 1:1) was added, followed by stirring and extraction at 20 to 40°C for 7 hours. After filtering the solid, the filtrate was concentrated under reduced pressure at 60° C. or lower until the total amount became about 1/10 of the volume, 0.5 kg of ethyl acetate was added and sufficiently stirred, and then allowed to stand.

The liquid was separated to obtain a lower layer. The lower layer was concentrated under reduced pressure to obtain a brown viscous product. The viscous material was dissolved in a mixture of about 30 times propylene glycol and purified water (volume ratio 8:2), and a trace amount of insoluble matter was filtered through a filter paper to obtain 8 g of natural extract solution of forsythia. 1 g of this article corresponds to 0.1 g of dried forsythia dry extract.

Shell-fired CaO (abbreviation: shell): (brand name) Okhotsk calcium (registered trademark) F-015 manufactured by Natural Japan was used.

(Internal bonding strength)

The grain resistance strength of the sheet-like material and the breathable substrate was determined by J.TAPPI paper pulp test method No. It measured according to the method described in 18-2:2000. The unit is mJ. The larger the number, the stronger the grain resistance.

(thickness)

The thickness was measured according to the method described in JISL1096 8.4A method (JIS method). The unit is mm.

[Air filter media A]

(Example 1)

A natural extract component by diluting coffee bean extract (natural extract component) with water on a polyester spunbond nonwoven fabric (sheet-like material) having a grain resistance of 64 mJ and a thickness of 0.5 mm, uniformly applying it by spraying, and drying at 120°C. A breathable base material containing was prepared, and this breathable base material was used as an air filter media. The dry content of the natural extract component was 5 g/m ² . Using this air filter media, it was molded into a pleated air filter having a width of 283 mm, a height of 368 mm, a depth of 10 mm, and a pitch interval of 13 mm, to prepare an air filter.

(Example 2)

An air filter media and an air filter were produced in the same manner as in Example 1, except that a polyester spunbond nonwoven fabric having a grain resistance of 168 mJ and a thickness of 0.5 mm was used as the sheet-like material.

(Example 3)

An air filter media and an air filter were produced in the same manner as in Example 1, except that a polyester spunbond nonwoven fabric having a grain resistance of 247 mJ and a thickness of 0.5 mm was used as the sheet-like material.

(Example 4)

An air filter media and an air filter were produced in the same manner as in Example 1, except that a polyester spunbond nonwoven fabric having a grain resistance of 170 mJ and a thickness of 0.1 mm was used as the sheet-like material.

(Example 5)

An air filter media and an air filter were produced in the same manner as in Example 1, except that a polyester spunbond nonwoven fabric having a grain strength of 169 mJ and a thickness of 1.0 mm was used as the sheet-like material.

(Example 6)

Except that the dry content of the natural extract component was 3 g/m ² , it carried out similarly to Example 2, and produced the air filter media and the air filter.

(Example 7)

Except that the dry content of the natural extract component was 10 g/m ² , it carried out similarly to Example 2, and produced the air filter media and the air filter.

(Example 8)

Natural extract by diluting grapefruit seed extract (natural extract component) with water on a polyester spunbond nonwoven fabric (sheet-like material) having a grain resistance of 171 mJ and a thickness of 0.5 mm, uniformly applying it by spraying, and drying at 120°C. A breathable substrate containing a component was prepared, and the breathable substrate was used as an air filter media. The amount of the active ingredient of the natural extract component was 0.01 g/m ² . Using this air filter media, it was molded into a pleated air filter having a width of 283 mm, a height of 368 mm, a depth of 10 mm, and a pitch interval of 13 mm, to prepare an air filter.

(Example 9)

An air filter media and an air filter were produced in the same manner as in Example 8, except that the amount of the active ingredient of the natural extract component was 3 g/m ² .

(Example 10)

An air filter media and an air filter were produced in the same manner as in Example 8, except that the amount of the active ingredient of the natural extract component was 10 g/m ² .

(Example 11)

To a polyester spunbond nonwoven fabric (sheet-shaped material) having a grain resistance of 170 mJ and a thickness of 0.5 mm, the mugwort leaf extract (natural extract component) is diluted with water, uniformly applied by a spray method, and dried at 120° C., to obtain a natural extract component. The breathable base material to be contained was produced, and this breathable base material was used as an air filter media. The dry content of the natural extract component was 1 g/m ² . Using this air filter media, it was molded into a pleated air filter having a width of 283 mm, a height of 368 mm, a depth of 10 mm, and a pitch interval of 13 mm, to prepare an air filter.

(Example 12)

Except that the dry content of the natural extract component was 4 g/m ² , it carried out similarly to Example 11, and produced the air filter media and an air filter.

(Example 13)

Except that the dry content of the natural extract component was 10 g/m ² , it carried out similarly to Example 11, and produced the air filter media and an air filter.

(Example 14)

Forsythia extract (natural extract component) is diluted with water to a polyester spunbond nonwoven fabric (sheet-like material) having a grain resistance of 171 mJ and a thickness of 0.5 mm, uniformly applied by a spray method, and dried at 120° C., thereby preparing a natural extract component. The breathable base material to be contained was produced, and this breathable base material was used as an air filter media. The dry content of the natural extract component was 1 g/m ² . Using this air filter media, it was molded into a pleated air filter having a width of 283 mm, a height of 368 mm, a depth of 10 mm, and a pitch interval of 13 mm, to prepare an air filter.

(Example 15)

Except that the dry content of the natural extract component was 4 g/m ² , it carried out similarly to Example 14, and produced the air filter media and the air filter.

(Example 16)

Except that the dry content of the natural extract component was 10 g/m ² , it carried out similarly to Example 14, and produced the air filter media and an air filter.

(Example 17)

A natural extract component by diluting shell-fired CaO (natural extract component) with water on a polyester spunbond nonwoven fabric (sheet-like material) having a stiffening strength of 171 mJ and a thickness of 0.5 mm, uniformly applying it by spraying, and drying at 120°C. A breathable base material containing was prepared, and this breathable base material was used as an air filter media. The dry content of the natural extract component was 0.5 g/m ² . Using this air filter media, it was molded into a pleated air filter having a width of 283 mm, a height of 368 mm, a depth of 10 mm, and a pitch interval of 13 mm, to prepare an air filter.

(Example 18)

Except that the dry content of the natural extract component was 3 g/m ² , it carried out similarly to Example 17, and produced the air filter media and the air filter.

(Example 19)

Except that the dry content of the natural extract component was 10 g/m ² , it carried out similarly to Example 17, and produced the air filter media and the air filter.

(Example 20)

Natural hinokitiol (manufactured by Kiseitech Limited Company, brand name: Kiseitech PR2003, abbreviation: Hinoki) as a natural extract component in a polyester spunbond nonwoven fabric (sheet-like material) having a stiffening strength of 171mJ and a thickness of 0.5mm with water It was diluted, applied uniformly by a spray method, and dried at 120°C to prepare a breathable substrate containing a natural extract component, and this breathable substrate was used as an air filter media. The dry content of the natural extract component was 3 g/m ² . Using this air filter media, it was molded into a pleated air filter having a width of 283 mm, a height of 368 mm, a depth of 10 mm, and a pitch interval of 13 mm, to prepare an air filter.

(Comparative Example 1)

Except having not attached the natural extract component, it carried out similarly to Example 2, and obtained the air filter media and an air filter.

(Comparative Example 2)

An air filter media and an air filter were produced in the same manner as in Example 1, except that a polyester spunbond nonwoven fabric having a grain resistance of 61 mJ and a thickness of 0.5 mm was used as the sheet-like material.

(Comparative Example 3)

An air filter media and an air filter were produced in the same manner as in Example 1, except that a polyester spunbond nonwoven fabric having a grain resistance of 271 mJ and a thickness of 0.5 mm was used as the sheet-like material.

(Comparative Example 4)

An air filter media and an air filter were produced in the same manner as in Example 1, except that a polyester spunbond nonwoven fabric having a grain resistance of 172 mJ and a thickness of 0.05 mm was used as the sheet-like material.

(Comparative Example 5)

An air filter media and an air filter were produced in the same manner as in Example 1, except that a polyester spunbond nonwoven fabric having a grain resistance of 167 mJ and a thickness of 1.5 mm was used as the sheet-like material.

[Air filter media B]

(Example 21)

To a polyester spunbond nonwoven fabric (sheet-like material) having a grain resistance of 66 mJ and a thickness of 7 mm, a coffee bean extract (natural extract component) is diluted with water, uniformly applied by a spray method, and dried at 140° C. to obtain a natural extract component. The breathable base material to be contained was produced, and this breathable base material was used as an air filter media. The dry content of the natural extract component was 5 g/m ² . Using this air filter media, it was cut into a size of 283 mm in width x 368 mm in depth, and molded into a flat air filter to prepare an air filter.

(Example 22)

An air filter media and an air filter were produced in the same manner as in Example 21, except that a polyester spunbond nonwoven fabric having a grain resistance of 170 mJ and a thickness of 7 mm was used as the sheet-like material.

(Example 23)

An air filter filter material and an air filter were produced in the same manner as in Example 21, except that a polyester spunbond nonwoven fabric having a grain resistance of 248 mJ and a thickness of 7 mm was used as the sheet-like material.

(Example 24)

An air filter media and an air filter were produced in the same manner as in Example 21, except that a polyester spunbond nonwoven fabric having a grain strength of 171 mJ and a thickness of 1.0 mm was used as the sheet-like material.

(Example 25)

An air filter media and an air filter were produced in the same manner as in Example 21, except that a polyester spunbond nonwoven fabric having a grain resistance of 171 mJ and a thickness of 15 mm was used as the sheet-like material.

(Example 26)

An air filter media and an air filter were produced in the same manner as in Example 22, except that grapefruit seed extract was used as a natural extract component, and the dry content was 3 g/m ² .

(Example 27)

An air filter media and an air filter were produced in the same manner as in Example 22, except that mugwort leaf extract was used as a natural extract component, and the dry content was 4 g/m ² .

(Example 28)

An air filter media and an air filter were produced in the same manner as in Example 22, except that forsythia extract was used as a natural extract component and the dry content was 4 g/m ² .

(Example 29)

Except that shell-fired CaO was used as a natural extract component, and the dry content was 3 g/m ² , it carried out similarly to Example 22, and produced the air filter media and an air filter.

(Comparative Example 6)

Except having not attached the natural extract component, it carried out similarly to Example 22, and obtained the air filter media and an air filter.

(Comparative Example 7)

An air filter media and an air filter were produced in the same manner as in Example 21, except that a polyester spunbond nonwoven fabric having a grain resistance of 58 mJ and a thickness of 7 mm was used as the sheet-like material.

(Comparative Example 8)

An air filter media and an air filter were produced in the same manner as in Example 21, except that a polyester spunbond nonwoven fabric having a grain resistance of 274 mJ and a thickness of 7 mm was used as the sheet-like material.

(Comparative Example 9)

An air filter media and an air filter were produced in the same manner as in Example 21, except that a polyester spunbond nonwoven fabric having a grain strength of 171 mJ and a thickness of 0.8 mm was used as the sheet-like material.

(Comparative Example 10)

An air filter media and an air filter were produced in the same manner as in Example 21, except that a polyester spunbond nonwoven fabric having a grain strength of 169 mJ and a thickness of 18 mm was used as the sheet-like material.

[Air filter media C]

(Example 30)

A natural extract component by diluting coffee bean extract (natural extract component) with water on a polyester spunbond nonwoven fabric (sheet-like material) having a grain resistance of 65 mJ and a thickness of 0.5 mm, uniformly applying it by spraying, and drying at 120°C. A breathable substrate containing a was produced, and this was used as a support substrate. The dry content of the natural extract component was 5 g/m ² . On this support substrate, 10 g/m ^{2 of} ethylene vinyl acetate copolymer (EVA) particulate adhesive powder (400 μm diameter) was sprayed. After that, the entire support substrate was run in a heating furnace at 100°C to sufficiently melt the adhesive powder, and then a melt-blown nonwoven fabric made of charged polypropylene having an average fineness of 0.03 dtex and a weight per unit area of 30 g/m ² was laminated and integrated. Thus, an air filter media was produced. Subsequently, using this air filter media, it was molded into a pleated air filter having a width of 275 mm × a height of 356 mm × a depth of 24 mm, and a pitch interval of 4.5 mm to prepare an air filter.

(Example 31)

An air filter media and an air filter were produced in the same manner as in Example 30, except that a polyester spunbond nonwoven fabric having a grain resistance of 170 mJ and a thickness of 0.5 mm was used as the sheet-like material.

(Example 32)

An air filter media and an air filter were produced in the same manner as in Example 30, except that a polyester spunbond nonwoven fabric having a grain resistance of 248 mJ and a thickness of 0.5 mm was used as the sheet-like material.

(Example 33)

An air filter media and an air filter were produced in the same manner as in Example 30, except that a polyester spunbond nonwoven fabric having a grain resistance of 168 mJ and a thickness of 0.1 mm was used as the sheet-like material.

(Example 34)

An air filter media and an air filter were produced in the same manner as in Example 30, except that a polyester spunbond nonwoven fabric having a grain resistance of 168 mJ and a thickness of 1.0 mm was used as the sheet-like material.

(Example 35)

An air filter media and an air filter were produced in the same manner as in Example 31, except that grapefruit seed extract was used as a natural extract component and the dry content was 3 g/m ² .

(Example 36)

An air filter media and an air filter were produced in the same manner as in Example 31, except that mugwort leaf extract was used as a natural extract component, and the dry content was 4 g/m ² .

(Example 37)

An air filter media and an air filter were produced in the same manner as in Example 31, except that forsythia extract was used as a natural extract component, and the dry content was 4 g/m ² .

(Example 38)

Except that shell-fired CaO was used as a natural extract component, and the dry content was 3 g/m ² , it carried out similarly to Example 31, and produced the air filter media and an air filter.

(Comparative Example 11)

Except having not attached the natural extract component, it carried out similarly to Example 31, and obtained the air filter media and the air filter.

(Comparative Example 12)

An air filter media and an air filter were produced in the same manner as in Example 30, except that a polyester spunbond nonwoven fabric having a grain resistance of 61 mJ and a thickness of 0.5 mm was used as the sheet-like material.

(Comparative Example 13)

An air filter media and an air filter were produced in the same manner as in Example 30, except that a polyester spunbond nonwoven fabric having a grain resistance of 280 mJ and a thickness of 0.5 mm was used as the sheet-like material.

(Comparative Example 14)

An air filter media and an air filter were produced in the same manner as in Example 30, except that a polyester spunbond nonwoven fabric having a grain resistance of 172 mJ and a thickness of 0.05 mm was used as the sheet-like material.

(Comparative Example 15)

An air filter media and an air filter were produced in the same manner as in Example 30, except that a polyester spunbond nonwoven fabric having a grain resistance of 168 mJ and a thickness of 1.5 mm was used as the sheet-like material.

About the air filter media and the air filter of Examples and Comparative Examples, it evaluated according to the evaluation method shown below, and the evaluation results were shown in Tables 1-3.

(Antibacterial test)

A test was conducted in accordance with JIS L 1902:2008 "Antimicrobial Test Method and Antimicrobial Effect of Textile Products" Bacterial Solution Absorption Method, and the antibacterial property was determined by the numerical value of the bacteriostatic activity. The bacteria used in the test were carried out in two types, Staphylococcus aureus and Escherichia coli. A bacteriostatic activity value of 2.2 or more was judged as “antibacterial”, and a bacteriostatic activity value of less than 2.2 was “x”, 2.2 to 3.2 were “○”, and 3.3 or more as “◎”.

(stink)

After the air filter was cut to a size of 20 x 20 cm, a monitor test by five evaluators was performed on the odor of the air filter at a distance of approximately 10 cm, and the average value was shown. Evaluation was performed in the following three steps, and 2 or less were made into pass.

1: odorless

2: barely detectable smell

3: easy to detect

(Air filter structure changes during long-term use)

The air filter was set in a humidified air cleaner (manufactured by Coway, brand name: APM-1010DH) and operated for 90 days, and then the “structure” of the air filter was visually evaluated. Evaluation was performed in the following three steps, and 1 or less was made into pass. Two evaluators evaluated and expressed it as the average value.

1: There is no change in the air filter structure and is good.

2: Wrinkles and air bubbles have occurred in the air filter, but in actual use, there is no problem.

3: Wrinkles, air bubbles, and cracks are strongly generated in the air filter, which is not suitable for use.

(Antibacterial properties after long-term use)

The air filter was set in a humidified air purifier (manufactured by Coway, brand name: APM-1010DH), operated for 90 days, and then the air filter media was collected from the air filter. The test was carried out in accordance with the antimicrobial test method and antibacterial effect of the effective product "bacterial liquid absorption method, and the antibacterial property was determined by the numerical value of the bacteriostatic activity value." The bacteria used in the test were carried out in two types, Staphylococcus aureus and Escherichia coli. A bacteriostatic activity value of 2.2 or more was judged as “antibacterial”, and a bacteriostatic activity value of less than 2.2 was “x”, 2.2 to 3.2 were “○”, and 3.3 or more as “◎”.

(Odor after prolonged use)

Set the air filter in a humidified air purifier (manufactured by Coway, brand name: APM-1010DH), operate for 90 days, cut the used air filter into a size of 20 x 20 cm, and then at a distance of about 10 cm, the air filter Regarding the odor of, a monitor test was performed by five evaluators, and the average value was expressed. Evaluation was performed in the following 4 steps, and 2 or less were made into pass.

1: odorless

2: barely detectable smell

3: easy to detect

4: strong smell

From Examples 1 to 20 and Comparative Examples 1 to 5, as the air filter media A to which pleated processing is performed, the air filter media has an internal bonding strength of 65 to 250 mJ, and a breathable substrate having a thickness of 0.1 to 1.0 mm. In the air filter media of Examples 1 to 20 in which the air permeable base material contains a natural extract component and the air filter formed by using the air filter media, sufficient antibacterial properties are exhibited, and for a long period of time in a humidified air purifier In use, even if it is affected by moisture in the air, there is no significant change in the structure of the air filter, and the antibacterial property is also maintained, and it can be seen that a clean air filter can be continuously used. In addition, from Examples 2, 6 to 19 and Example 20, when the natural extract component is at least one selected from the group of coffee bean extract, grapefruit seed extract, mugwort leaf extract, forsythia extract and shell calcined CaO, humidified air It can be seen that the air filter structure is more difficult to change even if it is used in a purifier for a long time and is affected by moisture in the air.

From Examples 21 to 29 and Comparative Examples 6 to 10, as the air filter media B not subjected to pleated processing, the air filter media is a breathable substrate having an internal bonding strength of 65 to 250 mJ, and a thickness of 1.0 to 15 mm. The air filter media of Examples 21 to 29 and the air filter formed by using the air filter media and the air filter media of Examples 21 to 29 in which the breathable base material contains a natural extract component have sufficient antibacterial properties, and are used for a long period of time in a humidified air purifier. In use, even if it is affected by moisture in the air, there is no significant change in the structure of the air filter, and the antibacterial property is also maintained, and it can be seen that a clean air filter can be continuously used.

From Examples 30 to 38 and Comparative Examples 11 to 15, as an air filter filter material in which a support substrate and a charged melt blown nonwoven fabric or a charged spunbond nonwoven fabric are laminated and integrated, the support substrate has an internal bonding strength of 65 to 250 mJ, and , In the air filter formed by using the air filter media of Examples 30 to 38 and the air filter media of Examples 30 to 38, which contains a breathable base material having a thickness of 0.1 to 1.0 mm, and the breathable base material contains a natural extract component , It shows sufficient antibacterial properties, and it is used in a humidified air purifier for a long time, even under the influence of moisture in the air, there is no significant change in the structure of the air filter, and the antibacterial property is also maintained. I can.

The air filter media and air filter of the present invention can be used in various air treatment devices such as air conditioners, air cleaners, vacuum cleaners, dehumidifiers, dryers, humidifiers, ventilation fans, and heat exchange devices. In addition, the air filter media of the present invention may be used for a humidifying element of a humidifier, a mask, a wet wiper, a floor wiper, or the like.

Claims (6)

As an air filter media subjected to pleated processing, the air filter media contains a breathable base material having an internal bonding strength of 65 to 250 mJ, and a thickness of 0.1 to 1.0 mm, and the breathable base material contains a natural extract component. Air filter media, characterized in that. As an air filter media that is not subjected to pleated processing, the air filter media contains a breathable base material having an internal bonding strength of 65 to 250 mJ and a thickness of 1.0 to 15 mm, and the breathable base material contains a natural extract component. Air filter media, characterized in that. As an air filter media in which a support substrate and a charged melt blown nonwoven fabric or a charged spunbond nonwoven fabric are laminated and integrated, the support substrate contains a breathable substrate having an internal bonding strength of 65 to 250 mJ, and a thickness of 0.1 to 1.0 mm. It is made, and the air filter media, characterized in that the breathable substrate contains a natural extract component. The method according to any one of claims 1 to 3,
The natural extract component is at least one selected from the group of coffee bean extract, grapefruit seed extract, mugwort leaf extract, forsythia extract, and calcium oxide compounds obtained by firing shells. An air filter formed by molding using the air filter media according to any one of claims 1 to 3. An air filter formed by molding using the air filter media according to claim 4.