JP3379665B2 - Filter paper for antibacterial air filter and method for producing the same - Google Patents

Description

Detailed Description of the Invention

[0001]

FIELD OF THE INVENTION The present invention relates to a filter paper for an antibacterial air filter and a method for producing the same.

[0002]

2. Description of the Related Art An air filter is used to supply high-definition air, but a large amount of microorganisms existing in the air propagate on the air filter, and high-definition air on the downstream side is required. May pollute the space.
An air filter is used to prevent this. In particular, antibacterial air filters are widely used to prevent nosocomial infections in hospitals, and to supply highly-clarified air for hygiene reasons at food handling sites such as the food manufacturing industry and food processing industry. For example, when an antibacterial filter paper for an air filter is manufactured as an antibacterial air filter, the antibacterial treatment is performed by post-processing by attaching a powder of an inorganic substance containing monovalent silver ions (Ag ions) to a normal filter paper for an air filter. It is known to be held (for example, April 20-21, 1993, 12th Air Purification and Contamination Control Research Conference “Antibacterial HE
Research on PA filters ”).

[0003]

When manufacturing an antibacterial air filter, since the antibacterial performance imparted in the post-processing is impregnated with only one specific substance, the types of effective microorganisms are naturally limited. . Further, the post-processing contaminates the filter paper as a result, and sacrifices part of the performance that the filter paper for an air filter should have. That is, the air resistance (that is, the pressure loss) is increased because the void portion of the filter paper for the air filter is filled with the agent having the antibacterial property. An object of the present invention is to obtain an antibacterial air filter effective against a wide range of microorganisms. Another object of the present invention is to impart antibacterial performance to the air filter without causing an increase in pressure loss.

[0004]

The above objects of the present invention can be achieved by the following constitutions. That is, to the glass fiber weight
In contrast, 0.02-0.2 weight of thiabendazole drug
%, 0.02-0.2 weight of inorganic powder containing monovalent silver
%, Binder at 6.0 to 8.0% by weight, respectively.
Antibacterial and antibacterial performance on the wet paper of the filter paper formed in the paper making part in the binder application step in the filter paper manufacturing process for the air filter made of glass fiber as the raw material. It is a method for producing a filter paper for an antibacterial air filter, which comprises sucking and removing liquid after mixing with a glass fiber binding binder containing a drug and impregnating it.

It is well known that Ag ions are toxic to lower organisms such as microorganisms. In the present specification, the microorganism is defined to include bacteria, fungi, and viruses that are microorganisms in a narrow sense, and protozoa and algae that are microorganisms in a broad sense. In addition, having a toxic effect (including an antibacterial effect) on the aforementioned microorganisms and the like is simply referred to as having antibacterial properties. Ag ions have the effect of suppressing the growth of bacteria such as Escherichia coli, but are representative of airborne microorganisms.
For example, it is not very effective against fungi such as mold and yeast. That is, the pharmacological effect of monovalent Ag ions is said to be cell membrane damage and enzyme transfer system disorder, which is preferable because it has no selectivity for bacterial species, but monovalent Ag ions are effective for fungi whose cell membrane is tough. Ions are less likely to exert a breeding suppression effect. The filter paper for air filters containing monovalent Ag ions had almost no antibacterial action against fungi such as mold and yeast. Thus, the present inventor first mixed and mixed a glass fiber containing monovalent Ag ions with a normal glass fiber, impregnated this with a thiabendazole-based drug that acts on the respiratory system of the fungus, and both the fungus and the bacterium. Against this, an invention for producing a filter paper for an air filter having an effect of suppressing reproduction was filed and a patent application was filed (Japanese Patent Application No. 6-207120).

The present invention is based on the above-mentioned invention filed by the present inventor. That is, 0.1 to 5 monovalent silver as antibacterial agents for the purpose of cell disruption fungicide and bacteria such as thiabendazole drugs that act on the respiratory system of the fungi such as molds with Ag ₂ O conversion. An inorganic compound powder containing 0% (hereinafter referred to as a silver-containing inorganic substance) is added. By mixing this with an appropriate binder to make a binder liquid,
This binder liquid is impregnated with a wet paper for making glass fiber for air filter production. The filter paper for an air filter obtained in the present invention removes excess binder liquid from the filter paper for an air filter impregnated with the binder liquid by a suction device, and the thiabendazole-based drug is added in an amount of 0.02 to 0. 2% by weight, an inorganic powder containing monovalent silver in an amount of 0.02 to 0.2% by weight, and a binder in an amount of 6.0 to 8.0% by weight are preferably attached.

The glass fiber for producing an air filter used in the present invention is an alkali-containing borosilicate glass fiber having a fiber diameter of 1.0 μm or less, and a non-alkali borosilicate glass fiber having a fiber diameter of 2 to 10 μm and a length of 5 to 20 mm. It is preferable to use chopped strands that are cut into pieces. Of course, a mixture of these may be used. As the antifungal agent used in the present invention, thiabendazole-based agents, zinc pyridione, binazine and the like, water for use in the papermaking process, and benzisothiazolone, which is unstable to heat cannot be used,
Do not use propyldimethyloctadecyl ammonium chloride. For example, as the thiabendazole-based drug, Kabinax F-200 manufactured by Hakuto Co., Ltd., and Malmoden MCP manufactured by Daiwa Chemical Co., Ltd. are used.

The inorganic substances used in the production of the silver-containing inorganic substance used in the present invention include zeolites, apatites, ceramics and the like, but apatites and ceramics are preferable from the viewpoint of stability over time such as hue change. As the apatite type, Apassider P made by Sangi Co., Ltd., which contains calcium phosphate as a main component, and Novalon AG-300 made by Toagosei Co., Ltd., which contains zirconium phosphate as a main component, are used as a ceramic type. The preferable particle size range of the silver-containing inorganic substance is 0.1 μm to 2.0 μm.
The reason is that if it is less than 0.1 μm, it is industrially difficult to manufacture, and if it exceeds 2.0 μm, it precipitates in the binder liquid and cannot be uniformly attached to the glass fiber.

The above-mentioned binder liquid has a binder function necessary for leaving the antifungal agent and the antibacterial agent at the intersections of the glass fibers constituting the air filter after drying. As the binder liquid, for example, a synthetic resin emulsion is used. More specific binder liquids are acrylic emulsion, epoxy emulsion, urethane emulsion, etc.Acrylic resin has a low film-forming property of resin when dried, and the balance of strength and flexibility meets the required characteristics when processing filter paper. Therefore, a binder using an acrylic resin is desirable. For example, a commercially available general acrylic emulsion such as a product name Boncoat SFC-53 manufactured by Dainippon Ink and Chemicals, Inc. or a product name Aron F-435 manufactured by Toagosei Co., Ltd. is used.

Further, in the present invention, in order to remove the excess binder liquid from the filter paper for air filters impregnated with the binder liquid, it is necessary to remove the liquid with a suction device. Although this suction device is also used in normal operation, by removing liquid with this device, the binder liquid adhering to the portion of the glass fiber constituting the filter paper for the air filter is removed, Since the binder containing the antifungal agent and the antibacterial agent remains only at the intersections of the fibers, the voids between the glass fibers are not blocked. Preferably, 1 to 5 parts by weight of the thiabendazole-based agent as a solid and monovalent silver as Ag ₂ O as 0.1 to ₂ parts by weight with respect to 100 parts by weight of a binder liquid for binding a glass fiber containing 3.0% by weight of a solid content. 1 to 10 parts by weight of a powdery inorganic substance containing 5.0% by weight is added as a solid to impregnate a wet paper formed in the paper making part as a binder liquid, and subsequently, a gauge pressure of −20 cmHg The filter paper for an antibacterial air filter having an antibacterial action can be manufactured by deliquoring.

[0011] In contrast, when granting antibacterial by post-processing in the prior art filter paper for the air filter, since only the suction drainer is not a done applying the required amount, solids between the glass fiber voids Blockage, resulting in high pressure loss. Here, the pressure for sucking and deliquoring is a value larger than -20 cmHg in gauge pressure, but this value is the same as in the case of treating the filter paper for an air filter containing no antibacterial agent with a binder, and thus the binder liquid. After preparation, it can be produced under normal conditions.
It is also possible to improve the I value by selecting the suction condition.

[0012]

According to the present invention, a plurality of substances imparting antibacterial properties (antifungal properties and antibacterial properties) are simultaneously attached to the filter paper for the air filter in the filter paper manufacturing process, so that the performance required for the filter paper for the antibacterial air filter can be obtained. It is possible to exert antibacterial properties without damaging.

[0013]

EXAMPLE One example of the present invention will be described. Impregnating the wet paper consists of a paper raw material glass fibers formed a binder solution containing Chiaben da tetrazole and silver-containing inorganic materials shown in Examples 1-4 Table 1 on the paper part, following this, a predetermined suction condition A filter paper for an antibacterial air filter containing an antibacterial action was produced by removing liquid using a suction device which is usually used. The resulting filter paper antibacterial air filter is attached to the binder and Chiaben da tetrazole and silver-containing inorganic material, and test its filter paper characteristics and antifungal and antibacterial properties.
The results are shown in Table 1.

[0014]

[Table 1]

Further, to produce a filter paper air filter with less on condition thia <br/> vendor tetrazole and silver-containing or inorganic material is not present or the content of the binder solution as a comparative example, as in the present embodiment The filter paper properties and antifungal and antibacterial properties were tested. The results are shown in Table 2.

[0016]

[Table 2] Comparative Example 1: A filter paper having a basis weight of 73 g / m ² was prepared by a conventional method and used as a sample. Comparative Examples 2 to 4: A predetermined amount of powder containing thiabendazole and Ag was added to an acrylic binder. Others are the same as the usual method.

The raw materials used in Examples 1 to 4 and Comparative Examples 1 to 4 are as follows. (1) Fine glass fiber Alkali-containing glass fiber with a fiber diameter of 1.0 μm or less CMLF208-C ₄ manufactured by Nippon Glass Fiber Co., Ltd. (2) C · S (chopped strand) Fiber diameter of 2 to 10 μm Non-alkali long glass fiber cut to a length of 5 to 20 mm, for example, trade name RES 13G manufactured by Nippon Glass Fiber Co., Ltd.
P 10WG (3) Acrylic binder Commercially available general acrylic emulsion Product name Boncoat SFC- manufactured by Dainippon Ink and Chemicals, Inc.
53 (4) Trade name of Thiabendazole Hakuto Co., Ltd. Cabinax F-200 (5) Product name of silver-containing inorganic substance Toagosei Co., Ltd. Novalon AG300

The physical properties of the obtained filter paper are measured according to the following criteria. (1) DOP Transmittance Dioctyl phthalate vapor (particle size: 0.3 μm) was added to the air, and its transmittance (% by weight) was measured by a photoelectric particle measuring instrument. (2) Pressure loss Pressure loss at wind velocity of 5.3 cm / sec (water column) (3) I value I = -LN (T / 100) / ΔP is there. Here, T: DOP transmittance ΔP: pressure loss LN: natural logarithm (4) The mold resistance is JIS Z-291 shown in Table 3 below.
It is a value based on 1.

[0019]

[Table 3]

(5) Antibacterial property is shown in JIS L-
It is a value based on 1902. As shown in FIG. 1, a sample (filter paper of this Example or Comparative Example) 2 is placed in the center of a culture medium 1 containing bacteria, and a growth inhibition zone 3 of concentric circles is formed around the sample 2 and the width of the halo is set as follows. The antibacterial index is obtained according to Table 4. W = (T−D) / 2 W: halo width (mm) T: growth inhibition zone width (mm) D: sample width (mm)

[0021]

[Table 4]

As is clear from the above examples and comparative examples,
The filter paper for an air filter of this example is effective against a wide range of microorganisms, and it is possible to produce a filter paper effective against both types of microorganisms such as mold and bacteria. Further, the filter paper for the air filter of the present example is adhered to the portion extending over the glass fibers constituting the filter paper by impregnating the binder liquid with the raw glass fibers and then removing the excess binder liquid by the suction device. Since the binder is drained and the binder remains only at the intersections of the glass fibers, the voids are not blocked and the pressure loss is not increased.

Here, the pressure for sucking and deliquoring is a value larger than -20 cmHg in gauge pressure, but this value is the same as that in the case where no drug is contained. Therefore, after the binder solution is prepared, the normal condition is satisfied. Can be manufactured in. It is also possible to improve the work value by selecting the suction condition.
Further, when the antibacterial performance is imparted to the filter paper for the air filter of the prior art by the post-processing, not only the cost of the agent for imparting the antibacterial performance but also the operating cost for the processing is newly generated. Since the antibacterial performance is imparted during the process, the cost increase can be minimized.

[0024]

EFFECTS OF THE INVENTION According to the present invention, (1) there is obtained a filter paper for an air filter which has a growth inhibitory effect on a wide range of microorganisms. (2) There is no increase in pressure loss of the obtained filter paper for air filters. (3) A slight increase in the cost of imparting antibacterial performance in the process of manufacturing filter paper for air filters

[Brief description of drawings]

FIG. 1 is a diagram illustrating a method for inspecting a sample used in an antibacterial test used in an example of the present invention.

[Explanation of symbols]

1 ... Medium containing bacteria, 2 ... Sample, 3 ... Growth inhibition zone

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Bibliography 1-77821 (JP, U) (58) Fields surveyed (Int.Cl. ⁷ , DB name) D21H 11/00-27/42 D06M 11 / 00-15/72 B01D 39/00-41/04

Claims (5)

(57) [Claims] 1. A thiabendazole-based agent in an amount of 0.02 to 0.2% by weight, an inorganic powder containing monovalent silver in an amount of 0.02 to 0.2% by weight, and a binder in an amount of 6.0 based on the weight of glass fiber.
A filter paper for an antibacterial air filter, wherein the filter paper is adhered at a ratio of up to 8.0% by weight. 2. The filter paper for an antibacterial air filter according to claim 1, wherein an inorganic powder containing monovalent silver having a particle size range of 0.1 μm to 2.0 μm is used. 3. A glass fiber bond containing a chemical having fungicidal and antibacterial properties on the wet paper of the filter paper formed in the paper making part in the binder application step in the process for producing a filter paper for an air filter using glass fiber as a raw material. A method for producing a filter paper for an antibacterial air filter, which comprises: mixing with a binder for use to impregnate it, followed by suction drainage. 4. The method for producing a filter paper for an antibacterial air filter according to claim 3, wherein a thiabendazole-based drug is used as the antifungal agent, and an inorganic powder containing monovalent silver is used as the antibacterial agent. 5. 1 to 5 parts by weight of a thiabendazole-based drug as a solid and Ag _{2 of} monovalent silver based on 100 parts by weight of a binder solution for binding glass fiber containing 3.0% by weight of solid content.
1 to 10 parts by weight of a powdery inorganic substance containing 0.1 to 5.0% by weight as O is added as a solid to impregnate the wet paper formed in the papermaking part as a binder liquid, and subsequently,
The method for producing a filter paper for an antibacterial air filter according to claim 3, wherein the antibacterial action is included by removing liquid with a suction force larger than a gauge pressure of -20 cmHg.