JP4047530B2 - air filter - Google Patents

Description

【００４０】
表１の結果から、実施例のエアフィルターは同種の濾材を用いた比較例のエアフィルターと比べて圧力損失が低く、通気性が優れることが分かる。エレクトレットフィルターを濾材として用いた各実施例の圧力損失は特に小さい。
【００４１】
【発明の効果】
本発明によれば、エレクトレットフィルターを濾材として用い、通気性が高いプリーツ状のエアフィルターを得ることができる。このようなエアフィルターは、通気性が優れると共に、構造的な圧損を最小限とし得るため空気が流れず空気清浄に寄与し難い部位が極めて少なく、濾材が有する特性を最大限に引き出すことができるため、特に有用性が高いエアフィルターである。[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an air filter, and more particularly to an air filter having high air permeability.
[0002]
[Prior art]
In recent years, due to changes in the living environment and increased health consciousness, the use of air purifiers has increased in homes and workplaces, and air filters have been used for purposes other than industrial uses such as intake and exhaust of clean rooms and factory equipment, and air conditioning for buildings. Are becoming widely used.
[0003]
The shape of the air filter varies depending on the application and design of the device, but the pleated filter with the filter medium folded into a wave shape can store a large area of the filter medium in a relatively small volume. It is one of the most common filter shapes because it can improve the performance, improve the performance of deodorization and dust removal, prolong the service life, and improve the rigidity of the filter.
[0004]
Processing the air filter into a pleated shape is an effective means for improving air permeability as described above. Theoretically, as the amount of folding of the filter medium increases, the linear velocity of the airflow passing through the filter medium decreases and pressure increases. Although the loss will be reduced, it does not actually follow this theory, and it has been difficult to properly design a pleated filter using a relatively thick filter medium.
[0005]
[Problems to be solved by the invention]
An object of the present invention is to provide a pleated air filter having high air permeability.
[0006]
[Means for Solving the Problems]
As a result of intensive studies to solve the above problems, the present inventors have completed the following invention.
[0007]
(1) In an air filter formed by processing a filter medium having a thickness of 0.4 mm to 1.2 mm into a pleat shape, the filter medium is an electret filter, and the pleat height H (mm) and pitch P (mm) An air filter characterized in that the relationship satisfies 0.05 ≦ H / P ² ≦ 0.2 (mm ⁻¹ ) .
[0008]
(2) In the invention (1), the pleat height H is 25 mm or more.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
The air filter of the present invention will be described in detail below.
[0010]
The filter medium according to the present invention includes dust removal, deodorization, antibacterial, antifungal, antiviral, insecticidal, insecticidal, pest repellent, harmful substance removal, aroma, dehumidification, humidity adjustment, moisture absorption (dry), moisture (humidity) permeation, oil, etc. Has various functions such as adjustment of ion balance such as adsorption and cation adsorption, and transpiration or sustained release of water and volatile chemicals, etc., and its thickness is in the range of 0.4 mm to 1.2 mm. Specific examples are shown below.
[0011]
The filter medium according to the present invention is an electret filter . The electret filter is a filter that retains electric polarization semipermanently and applies an electric force to the outside, and traps particles by the electrostatic force. Examples of charging methods include electroelectrets, thermal electrets, radio electrets, mechano electrets, photo electrets, and magnet electrets, but industrially used non-woven fabric filters are mainly electroelectrets and thermal electrets. As a material, a polypropylene or propylene-based copolymer is often used, and an appropriate amount of a fatty acid metal salt such as aluminum stearate may be added to the above resin raw material for the purpose of improving heat resistance.
[0012]
The filter medium comprising the electret filter according to the present invention is preferably one obtained by filtering electret fibers using a needle punch method or the like, and a scrim material or a net may be used in combination as desired. In particular, the electretized fibers are preferably film split fibers formed by cutting a film that has been charged by corona discharge or the like into fibers.
[0013]
Furthermore, matters outside the scope of the present invention will be described. The filter medium may be a dust filter other than the electret filter described above. As such a filter medium, a foam (foam) made of a net made of a resin such as polyvinylidene chloride or polypropylene, a polyurethane resin or a polyvinyl alcohol resin, etc. ) And various non-woven fabrics.
[0014]
Nonwoven fabrics according to the present invention include polyamide fibers, polyester fibers, polyalkylene paraoxybenzoate fibers, polyurethane fibers, polyvinyl alcohol fibers, polyvinylidene chloride fibers, polyvinyl chloride fibers, polyacrylonitrile fibers, and polyolefin fibers. Fiber, synthetic fiber such as phenolic fiber, inorganic fiber such as glass fiber, metal fiber, alumina fiber, carbon fiber, activated carbon fiber, natural fiber such as wood pulp, hemp pulp, cotton linter pulp, cotton, wool, silk, Recycled cellulose fibers such as recycled paper pulp and rayon, proteins such as collagen, recycled fibers made from polysaccharides such as alginic acid, chitin, chitosan, starch, etc., or functions such as hydrophilicity and flame retardancy of these fibers Single or combined fibers Use Te, those prepared by various methods.
[0015]
There are no particular restrictions on the method of manufacturing the nonwoven fabric, and the web obtained by the dry method, wet papermaking method, meltblown method, spunbond method, flash spinning method, airlaid method, etc., can be used according to the purpose and application. It can be produced by appropriately combining a physical method such as a punch method and a stitch bond method, a heat adhesion method such as a thermal bond method, and a method of developing strength by an adhesive method such as a resin bond.
[0016]
The filter medium according to the present invention may be a deodorizing filter or an antibacterial filter, and examples thereof include those in which a deodorizing agent or an antibacterial agent described later is supported on a substrate such as a nonwoven fabric or a foam.
[0017]
Further, combinations of filter media not necessarily related to the present invention will be described. The filter medium may be a deodorization filter in which a granular deodorant is encapsulated and supported between two breathable substrates. Further, in such a filter, one of the breathable base materials may be a dust removing filter such as an electret filter, and the other of the breathable base materials may be a multi-functional filter composed of an antibacterial filter.
[0018]
The deodorizer is a drug mainly used for the purpose of removing malodor, specifically activated carbon, impregnated activated carbon, activated carbon fiber, natural and synthetic zeolite, high silica zeolite, silica, activated alumina, activated clay, Adsorbents such as sepiolite, organic acid compounds or ion exchange resins, enzyme-based deodorants such as iron phthalocyanine derivatives such as iron ascorbic acid and iron, cobalt and manganese, photocatalysts such as titanium oxide and zinc oxide, manganese oxides and Low-temperature oxidation catalyst such as perovskite-type catalyst, synthetic ceramics such as silicon carbide, silicon nitride, calcium silicate, alumina / silica, zirconia, far infrared ceramics such as barley stone and felsong stone, compounds contained in plant extract components Deodorizers using certain catechins, tannins, flavonoids, etc. . A plurality of these deodorizers may be used in combination as necessary, or may be a hybrid deodorizer obtained by combining these deodorizers.
[0019]
The antibacterial agent is a drug used for the purpose of removing, killing, deactivating or suppressing reproduction of harmful microorganisms and pathogens such as bacteria, mosses or viruses. Specifically, silver, zinc, calcium phosphate, etc. -Based inorganic antibacterial agents, benzimidazole-based, isothiazoline-based, pyrithione-based, organic arsenic-based, organic copper-based, organic iodine-based, chlorohexidine-based organic antibacterial agents, and high-molecular antibacterials such as chitin and chitosan And antibacterial agents derived from natural products such as catechins extracted from teas and strawberries, bamboo shoot extract, hinokitiol, and hybrid antibacterial agents combining these.
[0020]
The thickness of the filter medium according to the present invention is measured under an initial load of 23.5 kPa for a predetermined time of 10 seconds in accordance with the method described in JIS-L-1096.
[0021]
The pleated processing according to the present invention is to apply a mountain-like fold processing to the filter medium, and by processing the corrugation in this way, the area of the filter medium can be increased with respect to a certain aeration area, As the linear velocity of the air passing through the filter medium is relatively decreased with respect to a predetermined air volume, generally the pressure loss is reduced and the air permeability is improved. Further, the collection efficiency is improved and the dust collection is improved. In addition to the achievement of a long performance life, the filter itself has increased rigidity compared to the use of a single plate, and the handleability when the filter is mounted or replaced is improved.
[0022]
The peak height of the pleat according to the present invention is the height from the valley to the peak of the pleated filter medium, and when the following pitch is sufficiently small and the influence of the thickness of the filter medium can be ignored, the peak to valley And usually corresponds to the thickness of the air filter. In addition, when the peak height of the pleat according to the present invention is not constant but irregular, an average value of peak heights can be used as H (mm) .
[0023]
The pitch of the pleat according to the present invention is the distance between the peaks of the pleated filter medium. In the case of an irregular pitch where the pitch is not constant, the average value of the pitch can be used as P (mm) .
[0024]
The air filter of the present invention is characterized in that the relationship between the pleat height H and the pitch P satisfies 0.05 ≦ H / P ² ≦ 0.2 (mm ⁻¹ ) , and H / P ² is 0.05. If it is smaller than (mm ⁻¹ ) , the amount of filter medium used is not sufficient, so that the pressure loss increases as the linear velocity of the airflow passing through the filter medium increases, and the optimum air permeability cannot be obtained. . On the other hand, when H / P ² is larger than 0.2 (mm ⁻¹ ) , the amount of filter media used is increased, but due to structural factors such as the pleated filter media approaching each other. The effect of increasing the pressure loss and increasing the amount of filter medium used is offset, and as a result, the pressure loss increases and the optimum air permeability cannot be obtained. Therefore, in the present invention, it is preferable to satisfy 0.05 ≦ H / P ² ≦ 0.2 (mm ⁻¹ ) .
[0025]
Although the magnitude | size of the air filter concerning this invention is not specifically limited, It is preferable that the peak height of a pleat is 25 mm or more. If the peak height of the pleat is smaller than 25 mm, the pressure loss of the obtained air filter becomes relatively high, and there is a problem that it is difficult to obtain the merit of processing into a pleat shape at least with respect to air permeability.
[0026]
When the filter medium according to the present invention is low in strength and damaged when processed into a wave shape, or when the filter medium is soft and difficult to form a wave-shaped mold, an air-permeable base material called an aggregate can be used in combination. The combined use of aggregates may be simply superimposition, or the filter medium and aggregate may be laminated and integrated. Examples of the aggregate according to the present invention include a spunbond nonwoven fabric, a resin bond nonwoven fabric, a thermal bond nonwoven fabric, and a resin net. However, the aggregate is not particularly limited, and the purpose of using the aggregate together with the properties of the filter media, the wavy shape It can select suitably according to the content etc. of a process. In addition, as a method of laminating the filter medium and the aggregate, a method of laminating by fusion such as a pin sonic method and a method of laminating by adhesion by a hot melt powder type laminating method such as a hot melt spray method or a so-called sinter method are mentioned. However, the lamination method is not limited to these.
[0027]
The air filter of the present invention is a so-called beat that applies a thermoplastic resin such as polyethylene linearly or continuously between wavy adjacent filter media for the purpose of securing and reinforcing the spacing between adjacent pleated filter media. A separator made of corrugated aluminum plate or the like may be attached to the valley of the pleated filter medium, or a saw-type spacing plate that can be inserted between adjacent filter media in a pleated form Or a belt-like film or a net connecting the pleats may be attached.
[0028]
【Example】
EXAMPLES Hereinafter, although an Example demonstrates this invention further in detail, this invention is not limited to these, unless the main point is exceeded.
[0029]
Example 1
As the filter medium (A), a commercially available filter (part number 30EPNB, manufactured by Mitsubishi Paper Industries Co., Ltd.) made by bonding a polypropylene net as a reinforcing material to an electret filter having a thickness of 0.6 mm is pleated with a height of 25 mm and a pitch of 22 mm. The air filter having an outer diameter of 200 mm × 200 mm was manufactured, and this was used as the air filter of Example 1.
[0030]
Examples 2 and 3
In Example 1, air filters were produced by the same method as in Example 1 except that pitch 16 mm or pitch 11.5 mm was used instead of pitch 22 mm. 3 air filter.
[0031]
Examples 4 and 5
In Example 2, air filters were produced in the same manner as in Example 2 except that the peak height was 20 mm or the peak height was 30 mm instead of the peak height of 25 mm. Air filters 4 and 5 were used.
[0032]
Reference Examples 6-8
In Examples 1, 2, and 3, as a filter medium (A), an antibacterial filter is used as a filter medium (B) instead of a commercially available filter obtained by bonding a polypropylene net as a reinforcing material to an electret filter having a thickness of 0.6 mm. In addition to the commercially available antibacterial / dust removal filter (product number KC-30AE, manufactured by Mitsubishi Paper Industries Co., Ltd.) having a thickness of 0.4 mm formed by laminating a dust removal filter, the same method as in Examples 1, 2, and 3 was used. Air filters were produced, and these were used as the air filters of Reference Examples 6, 7 and 8, respectively, in descending order of pitch.
[0033]
Reference Examples 9-11
In Examples 1, 2, and 3, as a filter medium (A), an antibacterial filter is used as a filter medium (C) instead of a commercially available filter obtained by bonding a polypropylene net as a reinforcing material to an electret filter having a thickness of 0.6 mm. All except that it is a commercially available multi-functional filter (trade name Naclet, part number KC2WW-SB, manufactured by Mitsubishi Paper Industries Co., Ltd.) with a thickness of 1.2 mm, in which granular activated carbon is enclosed as a deodorizer between the filter and the dust filter. Air filters were produced in the same manner as in Examples 1, 2, and 3, and these were used as the air filters of Reference Examples 9, 10 and 11 in order from the largest pitch.
[0034]
Comparative Examples 1 and 2
In Example 1, air filters were produced by the same method as in Example 1 except that the pitch was set to 25 mm or 10 mm instead of the pitch of 22 mm. An air filter was used.
[0035]
Comparative Examples 3 and 4
In Reference Example 6, air filters were produced in the same manner as in Reference Example 6 except that the pitch was set to 25 mm or 10 mm instead of 22 mm, and these were used in Comparative Examples 3 and 4 in descending order of pitch. An air filter was used.
[0036]
Comparative Examples 5 and 6
In Reference Example 9, air filters were produced in the same manner as in Reference Example 9 except that the pitch was 25 mm or 10 mm instead of 22 mm, and these were used in the order of Comparative Examples 5 and 6 in descending order of pitch. An air filter was used.
[0037]
Next, the air permeability of the air filters of Examples , Reference Examples and Comparative Examples was measured by the following method, and the results are shown in Table 1.
[0038]
[Breathability measurement]
Based on JIS-B-9908, the pressure loss (Pa) of the air filter of the Example , a reference example, and a comparative example in the wind speed of 1 m / sec was measured. The smaller the value of pressure loss, the better the air permeability.
[0039]
[Table 1]

[0040]
From the results in Table 1, it can be seen that the air filter of the example has lower pressure loss and excellent air permeability than the air filter of the comparative example using the same type of filter medium. The pressure loss of each Example using an electret filter as a filter medium is particularly small.
[0041]
【The invention's effect】
According to the present invention, an electret filter can be used as a filter medium, and a pleated air filter with high air permeability can be obtained. Such an air filter has excellent air permeability and can minimize structural pressure loss, so that there are very few sites where air does not flow and does not contribute to air cleaning, and the characteristics of the filter medium can be maximized. Therefore, the air filter is particularly useful.

Claims (2)

In an air filter formed by processing a filter medium having a thickness of 0.4 mm to 1.2 mm into a pleat shape, the filter medium is an electret filter, and the relationship between the pleat height H (mm) and the pitch P (mm) is 0. 0.05 ≦ H / P ² ≦ 0.2 (mm ⁻¹ ) .   The air filter according to claim 1, wherein the pleat height H is 25 mm or more.