JPH07148407A - Virus-removing filter, virus-removing apparatus, heat exchange element, and humidifier - Google Patents

Abstract

PURPOSE:To remove virus in air with a filter and inactivate the captured virus on the filter. CONSTITUTION:A filter is impregnated with extracted components of tea or polyphenols of tea; or the components or the polyphenols may be kneaded with a meterial for the filter to provide a virus inactivating function. A charging part 4 is installed in the upper stream side of the filter 1 to improve the dust collecting function and the inactivating function. Also, a virus-inactivating agent is made to adhere to a heat exchange element 6 to prevent the virus from coming in from the outside. The virus in air is inactivated by adding the virus- inactivating agent to humidifying water and carrying out humidification.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an anti-virus filter, a virus removing device, a heat exchange element and a humidifier for collecting viruses floating in the air and inactivating the collected viruses. .

[0002]

2. Description of the Related Art In recent years, influenza virus, which is a pathogenic virus for colds among viruses, has caused an epidemic by airborne infection or droplet infection. An antivirus filter, a virus removal device, and a heat exchanger that remove and inactivate this virus Elements and humidifiers are desired.

Conventionally, ultraviolet rays have been used as a method for inactivating viruses, but since ultraviolet rays are harmful to the human body, it is difficult to use them in a space where people live. In addition, the size of the virus is very small, about 0.1 μm, but it is unlikely that it will float in the air by itself, and it is thought that it is either dissolved in water or dust, or floated while adhering to it. ing. Therefore, HEP
Viruses can be collected not only by the A filter but also by a high performance filter, a medium performance filter, and an electret filter. The virus in the air can be collected by a filter to reduce the virus concentration in the air.

Further, an antiviral agent containing tea polyphenol as a main component has been conventionally known as an influenza virus infection preventive agent. (JP-A-3-101623)

[0005]

However, such a conventional method has a problem that it is difficult to use it in a normal living space because it is harmful to the human body like ultraviolet rays. Although it can be collected by a filter, the virus collected on the filter is active and can proliferate in the presence of living cells unless there is a particularly large thermal change. However, there is a problem that the virus may re-spray when the air blown to the filter is turned on. Further, although it is possible to inactivate the virus collected in the filter with ultraviolet rays, there is also a problem that ultraviolet rays easily cause deterioration of filter materials and devices.

Further, the active ingredient of tea has an effect of inactivating viruses, particularly influenza virus (Japanese Patent Laid-Open No. 3-30083).
No. 101623), and not a chemically synthesized product,
Since it is an extracted component from a natural product (JP-A-2-2275)
(Gazette No. 5) Very safe. However, there is a problem that this infection preventive agent is not suitable for inactivating the virus in the air because it is used in foods such as candy and mouthwash.

SUMMARY OF THE INVENTION The first object of the present invention is to solve the above problems and to provide an antivirus filter which is easy to manufacture.

The second purpose is to prevent deterioration of dust collection performance,
It is to provide an inexpensive anti-virus filter.

A third object is to provide an anti-virus filter for separating and purifying tea polyphenol from an extract component of tea and inactivating the virus collected in the filter by a more effective virus inactivating agent. .

A fourth object is to provide an anti-virus filter which separates and purifies from tea polyphenol and inactivates the virus trapped in the filter with an effective virus inactivating agent even in a small amount.

[0011] A fifth object is to provide a virus removing device having improved collection performance and improved inactivation performance.

[0012] A sixth object is to provide a heat exchange element which prevents virus from entering from the outside during heat exchange.

A seventh object is to provide a humidifier for inactivating viruses floating in the entire space.

[0014]

The first means for achieving the first object of the present invention is to impregnate a filter with a virus inactivating agent containing tea as an active ingredient.

A second means for achieving the second object is to knead a virus inactivating agent containing a tea extract as an active ingredient into a filter material.

A third means for achieving the third object is to use tea polyphenol, which is an extract component of tea, as a virus inactivating agent.

A fourth means for achieving the fourth object is that the tea polyphenol is epigallocatechin gallate, epicatechin gallate, epigallocatechin, epicatechin, (+) catechin, and their attribute bodies, free. At least one substance selected from the theaflavin type, theaflavin monogallate A, theaflavin monogallate B and theaflavin digallate is used as a virus inactivating agent.

A fifth means for achieving the fifth object is to provide a charging section on the upstream side of the antivirus filter.

The sixth means for achieving the sixth object is to impregnate or knead a virus inactivating agent into the heat exchange element.

Further, a seventh object for achieving the seventh object
The means is a method in which a virus inactivating agent is mixed in humidifying water.

[0021]

According to the present invention, by virtue of the constitution of the above-mentioned first means, the filter having the dust collecting performance is dipped in a solution in which the active ingredient of tea is dissolved in a solvent such as water, and dried to remove the virus inactivating agent. The anti-virus filter can be easily manufactured by attaching it to the filter.

In addition, since the active ingredient of tea is kneaded into the filter material by the constitution of the second means, the filter has a virus inactivating function without impairing the dust collecting performance, and an inexpensive antivirus filter is manufactured. It is possible.

According to the constitution of the third means, tea polyphenol which is an active ingredient of tea is used as a virus inactivating agent to inactivate the virus.

According to the constitution of the fourth means, catechins which are tea polyphenols are used as a virus inactivating agent to inactivate the virus.

In addition, by providing the charging section by the configuration of the fifth means, the virus collecting performance and the virus inactivating performance are improved.

In addition, by the constitution of the sixth means, a virus inactivating agent is attached to the heat exchange element to inactivate the virus contained in the outside air.

Further, by the constitution of the seventh means, the virus inactivating agent is sprayed together with humidifying water to inactivate the virus floating in the space.

[0028]

EXAMPLE A first example of the present invention will be described below.

The extract component separated and purified from the green tea or black tea extract component was dissolved in pure water to obtain 10,000 ppm, 100 ppm.
A 0 ppm aqueous solution was prepared. The electret filter was dipped in this aqueous solution, lightly dehydrated and then dried to attach the virus inactivating agent to the electret filter. The electret filter to which the virus inactivating agent is attached is referred to as electret FG. Polio virus and Coxsackie virus in distilled water at 10,000 PF
The virus suspension prepared to U / ml is electret F
-Use G like filter paper to filter. The filtered liquid is used as a virus filtrate. After the electret FG having captured the virus is left at room temperature for 6 hours, the virus captured on the filter is extracted with a 0.1 mol carbonate buffer. The liquid from which this virus is attracted is referred to as the attractant liquid. 1 ml of the virus filtrate and virus attractant is collected, and an equal amount of MEM medium prepared to have a concentration twice that of the formulation is mixed and used as a stock solution for inoculating cells. This is serially diluted 10-fold with phosphate buffer and inoculated into cells. After adsorbing the virus to the cells for a predetermined time, the inoculated virus solution is removed. The amount of virus was quantified by the Plaque method to confirm the virus inactivating effect.

Test virus and cells used for detection (1) Polio virus type Lsc2a
b Attenuated vaccine strain (derived from HEL-R66 human fetal lung cells) (2) Coxsaki virus type B6
Standard strain (derived from HEL-R66 human fetal lung cells) As an object, an electret filter immersed in a 0 ppm (water only) solution was also prepared and compared. The result is Pol
The results for the io virus are shown in Table 1 and the results for the Coxsakie virus are shown in Table 2.

[0031]

[Table 1]

[0032]

[Table 2]

As described above, assuming that the virus attracted from the filter of 0 ppm (water only) is 100, it is 100
90% of the virus captured by the filter was obtained by immersing the filter in an aqueous solution of 00ppm of tea extract.
The above can be inactivated. In the embodiment, the electret filter is used, but the HEPA filter,
Similar effects can be obtained with high-performance filters and medium-performance filters. Further, although the filter is impregnated with the aqueous solution of the extract component of tea, the same effect can be obtained by applying by spraying or the like.

In general, there are filters having an antibacterial property by adhering an antibacterial agent to the filter, but most of the antibacterial agents are organic chemically synthesized products, and in the case of inorganic substances, many are carried on zeolite or the like. Organic chemically synthesized products are difficult to handle because they are harmful to the human body, and inorganic substances are difficult to attach to filters because there are many powders. Since the tea extract of the present invention is a natural product, it is highly safe, and because it is water-soluble, it can be easily attached to the filter as shown in the above method, is easy to produce, and is excellent in virus resistance. An antivirus filter having activation performance can be provided.

Next, a second embodiment of the present invention will be described. 200 ~ 2 by mixing 0.1% or more of the tea extract component with polypropylene which is the material of the electret filter.
Melt at 50 ° C. Then, it is formed into a film and cut into a non-woven fabric. This non-woven fabric is molded into a filter to form an electret filter. The extracted components of the kneaded tea come out on the surface of the fiber and inactivate the virus collected by the filter. The virus inactivating performance shows the same effect as that of the first embodiment. In the embodiment, the electret filter is used, but a HEPA filter, a high-performance filter, a medium-performance filter, or the like can also obtain the same effect.

When the tea extract component is kneaded into the material, the dust collection performance, which is the basic performance of the filter, is not impaired,
In addition, since the tea extract component gradually appears on the surface of the fiber, the duration of virus inactivating performance is prolonged. In this way, it is possible to prevent deterioration of the dust collection performance and provide an inexpensive antivirus filter.

Next, a third embodiment of the present invention will be described. The tea polyphenols separated and purified from the tea extract component of the present invention are tea catechins represented by the formula I in the chemical formula 1 and tea theaflavins represented by the formula II in the chemical formula 2. This tea polyphenol can be produced from tea leaves as a raw material, and one example of the production and composition thereof is JP-A-59-21938.
No. 4, No. 60-13780, No. 61-130285. This tea polyphenol is effective as a virus inactivating agent, and the virus inactivating ability can be added to the filter by attaching it to the filter as shown in the first and second examples.

[0038]

[Chemical 1]

[0039]

[Chemical 2]

Next, a fourth embodiment of the present invention will be described. The tea polyphenols, which are the tea extract components of the present invention, are the tea catechins represented by the formula I in the chemical formula 1 and the tea theaflavins represented by the formula II in the chemical formula 2. Epigallocatechin gallate, epicatechin gallate, epigallocatechin, epicatechin, (+) catechin and their attribute forms, free theaflavin, and theaflavin mono, specifically shown in formulas I and II separated and purified from tea polyphenol At least one substance selected from gallate A, theaflavin monogallate B, and theaflavin digallate is effective as a virus inactivating agent.
By attaching it to the filter as shown in the second embodiment, the virus inactivating ability can be added to the filter more effectively even in a small amount.

Next, a fifth embodiment of the present invention will be described with reference to FIG. As shown in FIG. 1, on the upstream side of the electret filter 1 to which a tea extract component or tea polyphenol was attached by the method shown in Example 1 or Example 2, charging consisting of a discharge line 2 and a parallel electrode plate 3 was performed. The charging section 4 is provided with a high voltage power supply device 5 for connecting + to the discharge line 2 and − to the parallel electrode plate 3 and applying a voltage to cause a corona discharge in the charging section 4.

With the above configuration, the operation will be described below. Although not shown, air containing a virus blown by a fan or the like flows into the charging unit 4. The virus does not float alone, but adheres to water and dust. Therefore, the virus is charged to + by the corona discharge when passing through the charging unit 4 like the water and dust, and then the electret filter 1 located downstream.
To be collected by. The collected virus is inactivated by the tea extract component or tea polyphenol adhering to the electret filter 1.

By providing the charging section on the upstream side, the dust collecting performance of the electret filter is improved. Therefore, the virus collecting performance is also improved. Further, since corona discharge is occurring in the charging section, ozone or an electric field is being generated. Viruses are also inactivated by ozone and electric fields.
Not only the collection performance is improved by the charged portion, but also the virus inactivating ability by ozone or electric field is added, and the ability to inactivate the virus is enhanced by the synergistic effect.

In the 0.2 m ³ box, the electrified filter having the above-mentioned charged part and the tea extract component or tea polyphenol attached thereto is installed, and a fan for blowing 1 m ³ / min of air is installed. First, the high concentration of Coxsaki
The e-virus solution was sprayed into the box and the initial virus concentration in the box was measured. The virus in the air in the box was collected by an impinger containing 100 ml of tryptic case soy broth (26 l / min, 10
The amount of virus was quantified by the Plaque method shown in Example 1). Next, after cleaning the inside of the box, the virus solution was sprayed again under the same conditions as above, and the fan was operated to blow air. After running for 10 minutes, the virus concentration in the air in the box was collected by an impinger in the same manner as above, and P
The amount of virus was quantified by the laque method. The results are shown in Table 3. As a target, the result when only the fan is operated without the charging unit and the filter is shown.

[0045]

[Table 3]

The virus concentration does not decrease so much only by operating only the fan, but when the electret filter to which the charged part + the extract component of tea or the tea polyphenol is attached is installed, the virus concentration becomes 0 after operating for 10 minutes.
Became. In addition, a virus was induced from the electret filter that collected this virus and the virus was measured, but it was not detected, and the virus on the filter was almost inactivated.

In the embodiment, + is connected to the discharge line and − is connected to the parallel electrode to apply a voltage, but conversely, − is connected to the discharge line and + is connected to the parallel electrode, the same effect can be obtained. Further, the same effect can be obtained as long as a corona discharge is generated instead of the discharge line to charge a virus, water, dust or the like.

Next, a sixth embodiment of the present invention will be described with reference to FIG. FIG. 2 shows a cross flow type heat exchange element 6 used in a heat exchange type ventilation fan or the like. Assuming that the air blown from the room is A and the air blown from the outdoors is B, A and B are blown at right angles and are partitioned by the partition plate 7, and sensible heat is exchanged through the partition plate 7. Also, in general, the heat exchange element 6
Is made of a material having moisture permeability such as paper. Since moisture passes through the partition plate 7, latent heat is also exchanged. Therefore, the air B from the outside does not flow directly into the room, but the moisture outside the room flows into the room. The virus does not float alone, but adheres to water and dust, so that the virus contained in the outdoor air flows into the room. By attaching the tea extract component or the tea polyphenol to the heat exchange element 6 by the method shown in Example 1 or 2, it is possible to inactivate the virus and prevent the outdoor virus from flowing into the room. .

Although the cross-flow type heat exchange element is shown in the embodiment, the same effect can be obtained with an alternating current type or rotary type heat exchange element.

Next, a seventh embodiment of the present invention will be described with reference to FIG. FIG. 3 shows a sectional view of the ultrasonic humidifier 8. By mixing a tea extract component or a virus inactivating agent such as tea polyphenol into the humidifying water, the virus inactivating agent floats in the space when it is humidified by a humidifier and acts with the virus in the air to remove the virus. A humidifier that can be inactivated and thus has a virus inactivation performance can be provided. When a tea extract or tea polyphenol acts with a virus, it loses the ability to wrap the virus and infect humans. Also, when inhaled tea extract or tea polyphenol, it protects human cells and prevents virus infection. Therefore, not only the humidifier but also the inhaler can prevent the virus from infecting humans. In addition, although the ultrasonic humidifier has been described in the embodiment, a heater-type humidifier, a spray-type humidifier, and the like can be used to obtain the same effect as long as the tea extract component or the tea polyphenol is sprayed together with the humidifying water. .

[0051]

EFFECTS OF THE INVENTION As is clear from the above examples, there is a great practical effect that it is possible to provide an antivirus filter that is safe and easy to handle, is easy to manufacture, and has excellent virus inactivating performance. can get.

Further, since the tea extract component or the tea polyphenol is kneaded into the material, the dust collecting performance which is the basic performance of the filter is not impaired, and the tea extract component is gradually exposed on the surface of the fiber. Therefore, the duration of virus inactivating performance is prolonged, deterioration of dust collecting performance is prevented, and an inexpensive antivirus filter can be provided.

Further, it is possible to provide a virus removing device which not only improves the collection performance by the charging part but also adds the virus inactivating power by ozone or an electric field to improve the virus inactivating ability by a synergistic effect. it can.

By adhering a tea extract component or tea polyphenol to a heat exchange element, it is possible to provide a heat exchange element capable of inactivating viruses and preventing outside viruses from flowing into the room. it can.

Further, by spraying the tea extract component or tea polyphenol together with the humidifying water, it is possible to provide a humidifier capable of inactivating the virus in the air and preventing the infection of humans, which is a great practical effect. can get.

[Brief description of drawings]

FIG. 1 is a cross-sectional view of a virus removing device provided with a charging unit on the upstream side of a third embodiment of the present invention.

FIG. 2 is a perspective view of a heat exchange element according to the fourth embodiment.

FIG. 3 is a sectional view of a humidifier of the fifth embodiment.

[Explanation of symbols]

1 Electret filter to which tea extract component or tea polyphenol is attached 4 Charge part 6 Heat exchange element 8 Ultrasonic humidifier

 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Masahiko Hara 3-1-20 Nihombashi Muromachi, Chuo-ku, Tokyo Mitsui Norin Co., Ltd.

Claims (7)

[Claims] 1. An antiviral filter in which a filter is impregnated with a virus inactivating agent containing a tea extract as an active ingredient. 2. An antiviral filter comprising a filter material and a virus inactivating agent containing a tea extract as an active ingredient. 3. The antiviral filter according to claim 1 or 2, wherein tea polyphenol, which is an extract component of tea, is used as a virus inactivating agent. 4. The tea polyphenols are epigallocatechin gallate, epicatechin gallate, epigallocatechin, epicatechin, (+) catechin and their attributes, free theaflavin, theaflavin monogallate A, theaflavin monogallate B and theaflavin diga. The antiviral filter according to claim 1 or 2, wherein at least one substance selected from the rates is used as a virus inactivating agent. 5. Claim 1 or claim 2 or claim 3.
Alternatively, a virus removing device provided with a charging section on the upstream side of the antivirus filter impregnated or kneaded with the virus inactivating agent according to claim 4. 6. A heat exchange element comprising a heat exchange element impregnated or kneaded with the virus inactivating agent according to claim 1, claim 2, claim 3 or claim 4. 7. A humidifier in which the virus inactivating agent according to claim 1, claim 2, claim 3, or claim 4 is mixed in humidifying water.