JP2021194036A - Method for decontaminating facilities where virus may remain and/or method for reducing virus infection risk in facilities - Google Patents

Abstract

To provide a method for decontaminating facilities where virus may remain.SOLUTION: Provided is a method for decontaminating facilities where virus may remain and/or a method for reducing virus infection risk in facilities, and which is characterized by including ozone fumigation work of spraying ozone into the space, and good bacteria spraying work of spraying good bacteria into the space after the ozone fumigation work.SELECTED DRAWING: Figure 1

Description

The present invention relates to a method for decontaminating a facility where a virus may remain and / or a method for reducing the risk of virus infection in a facility.

With the epidemic of the new coronavirus infection (COVID-19), many virus disinfection and decontamination work is done at commercial facilities and public facilities (cafes and hotels) where the new coronavirus infection (COVID-19) has been confirmed. It is being advanced.
In addition, in order to resume business operations at facilities, there has been a demand for a method for reducing the risk of virus infection at facilities at risk of new coronavirus infection (COVID-19).

Patent Document 1 describes a technique for decontaminating a site where a virus may spread by applying a gel to the surface.

By the way, ozone fumigation is known as a technique for removing an odor generated in a space (Non-Patent Document 1).

Japanese Unexamined Patent Publication No. 2016-93503

"Ozone fumigation service", [online], Sankyo Airtech, [Search on November 15, 2018], Internet <URL: https://www.sat.co.jp/service/kunjyou/>

Given the above prior art, it is an object of the present invention to provide a method for decontaminating a facility where a virus may remain and / or reducing the risk of virus infection in the facility.

That is, the present invention that solves the above-mentioned problems is a method for decontaminating a facility where a virus may remain and / or reducing the risk of virus infection in the facility.
It has a decontamination and / or infection risk reduction process to remove the virus remaining in the facility where the virus may remain.
The decontamination and / or infection risk reduction step
It is characterized by including ozone fumigation work that sprays ozone into the space.
By using the above method, it is possible to remove the virus remaining in the facility and decontaminate the facility where the virus may remain.

Further, in a preferred embodiment of the present invention,
A method of decontaminating facilities where there is a possibility of residual virus and / or reducing the risk of virus infection in facilities.
Ozone fumigation work that sprays ozone into the space,
In the space after the ozone fumigation work, the good bacteria spraying work and the good bacteria spraying work
It is characterized by including.
By using the above method, the virus remaining in the facility can be removed.
In addition, by performing the good bacteria spraying work in the space after the ozone fumigation work, the total amount of bacteria in the space reduced by the ozone fumigation work can be restored, and the risk of becoming a re-infection environment can be reduced.

In a preferred embodiment of the present invention, the ozone fumigation operation is characterized by ozone fumigation for 30 minutes or more with the ozone concentration in the space set to 0.5 ppm to 12 ppm.
By using ozone under the above conditions, it is possible to more reliably decontaminate facilities where the virus may remain.

In a preferred embodiment of the invention
When ozone fumigation is performed for 30 minutes or more with the ozone concentration in the space set to 0.5 ppm or more in the ozone fumigation operation.
The good bacteria spraying operation is characterized in that at least 500 cc or more of a good bacteria-containing liquid agent containing 1 million pieces / cc or more of good bacteria ^{is sprayed per 100 m 3.}
By spraying the amount of good bacteria above the lower limit, the total amount of bacteria in the space reduced by the ozone fumigation work can be restored, and the risk of re-infection environment can be reduced.

In a preferred embodiment of the invention, the virus is a virus that causes a new coronavirus infection (COVID-19).
According to the present invention, decontamination of facilities where the virus causing the new coronavirus infection (COVID-19) may remain and / or virus of the facility at risk of the new coronavirus infection (COVID-19). It can also reduce the risk of infection.

In a preferred embodiment of the present invention, a shoe sole disinfection container is prepared near the exit of a facility where the virus may remain, and when exiting the space, the shoe sole disinfection container adheres to the shoe sole. It is characterized by including work to prevent the spread of infection to drop the virus.
By performing the above-mentioned infection spread prevention work, it is possible to prevent the spread of the virus.

INDUSTRIAL APPLICABILITY According to the present invention, it is possible to provide a method for more reliably decontaminating a facility where a virus may remain.
Further, according to the present invention, it is possible to provide a method for preventing decontamination of a facility.

It is a figure which shows the work flow of this invention.

Hereinafter, the present invention will be described in detail, but it goes without saying that the technical scope of the present invention is not limited to the following description.

The method according to this embodiment targets a facility where a virus may remain as a decontamination target.
Here, the decontamination method according to the present embodiment is not particularly limited to the virus to be decontaminated.
Specifically, for example, the decontamination method according to the present embodiment may target coronavirus as a decontamination target.
Further, according to the present invention, even a facility where a virus causing a new type coronavirus infection (COVID-19) may remain can be targeted for decontamination.

In addition, there is no particular limitation on the elapsed time from confirmation of evacuation of virus-infected patients (patients with new coronavirus infection (COVID-19)) at facilities where the virus may remain.

The method according to this embodiment is also a method for reducing the risk of virus infection in a facility.
The method according to this embodiment is not particularly limited to the target virus.
Specifically, for example, facilities at risk of viral infection due to coronavirus can also be targeted. In addition, according to the present invention, facilities at risk of new coronavirus infection (COVID-19) can also be targeted.

The material of the target space is not particularly limited, and may be made of wood or concrete.

Further, the type of the target space is not particularly limited, and may be any of a ship, a house, an apartment house, an amusement facility, a store, an inn, a restaurant, a factory, a warehouse, and a garage.

Further, the size of the target space is not particularly limited, and for example, a space having a size of 10 m ³ or more, preferably 30 m ³ or more, more preferably 60 m ³ or more can be targeted for decontamination.
Further, a space of 300 m ³ or less, more preferably 200 m ³ or less, still more preferably 150 m ³ or less can be decontaminated.

The decontamination method according to the present embodiment includes an infection spread prevention work and a decontamination and / or infection risk reduction step.
Hereinafter, it will be described in detail.

(Infection spread prevention work S11)
In the infection spread prevention work S11, a shoe sole disinfection container is prepared near the exit of the facility where the virus may remain, and the virus attached to the shoe sole is removed by the shoe sole disinfection container when leaving the facility. It is a process of dropping.
By performing the above-mentioned infection spread prevention work S11, it is possible to prevent the spread of the virus.

Here, the shoe sole disinfection container is not particularly limited in the shape, size, and number of the containers to be prepared as long as they can wash away the virus adhering to the shoe sole of the worker.

In addition, a disinfectant solution is poured into the shoe sole disinfectant container. A cloth material (towel, etc.) is submerged in the bottom of the shoe sole disinfecting container.
With such a form, it is possible to more reliably remove the virus adhering to the shoe sole of the worker.

Further, it is particularly preferable that the shoe sole disinfecting container is provided at the exit of the facility where the virus may remain.

(Decontamination and / or infection risk reduction process)
Next, the decontamination and / or infection risk reduction process will be described. The decontamination and / or infection risk reduction step is a step of decontaminating a space where there is a risk of virus spread by removing the virus remaining in the space.

The decontamination and / or infection risk reduction step of this embodiment includes an ozone fumigation operation S12, a cleaning operation S13, and a good bacteria spraying operation S14.
Hereinafter, each operation will be described in detail.

(1) Ozone fumigation work S12
(1-1) Ozone fumigation Ozone fumigation work S12 is a work of spraying ozone into a space.
By performing the ozone fumigation operation S12, the virus can be inactivated.
Here, from the viewpoint of reducing the risk of virus infection by the operator, it is preferable to perform the ozone fumigation operation S12 before the cleaning operation S13.

The ozone fumigation operation S12 includes setting the ozone concentration in the space to a state of preferably 0.5 ppm or more, more preferably 1 ppm or more, more preferably 4 ppm or more, and more preferably 8 ppm or more.

Further, the ozone fumigation operation S12 includes setting the ozone concentration in the space to a state of preferably 20 ppm or less, more preferably 15 ppm or less, and more preferably 12 ppm or less.

Here, the value of the ozone densitometer can be used as the ozone concentration in the space.

The ozone fumigation operation S12 includes ozone fumigation for preferably 20 minutes or longer, more preferably 30 minutes or longer, and more preferably 50 minutes or longer with the ozone concentration in the space within the above range.

Further, the ozone fumigation operation S12 includes ozone fumigation preferably for less than 3 hours, more preferably for less than 2 hours, and more preferably for less than 1.5 hours with the ozone concentration in the space within the above range.

By performing the ozone fumigation operation S12 under the above conditions, it is possible to more reliably decontaminate the facility where the virus may remain.

Here, the ozone fumigation operation S12 may be in the form of spraying the above-mentioned amount of ozone in one day or in the form of spraying the above-mentioned amount of ozone in a plurality of days.

A known ozone fumigation device can be used for the ozone fumigation operation S12. Above all, as the ozone fumigation apparatus, Super Activo (manufactured by Kai Corporation) can be preferably used.

(1-2) Cleaning work using a decontamination agent containing hydrogen peroxide S13
In this embodiment, after the ozone fumigation operation S12, the space is cleaned with a hydrogen peroxide-containing decontaminating agent. By cleaning the space with a hydrogen peroxide-containing decontamination agent, it is possible to more reliably decontaminate facilities where the virus may remain.

Here, as a method for cleaning the space using a hydrogen peroxide-containing decontaminating agent, a method in which the hydrogen peroxide-containing decontaminating agent is dipped in a cloth material such as a waste cloth is used to wipe off the wall surface and the articles in the space. You can take the method.

The hydrogen peroxide-containing decontamination agent may be a liquid agent, granules, or powder. Above all, the decontamination agent is preferably a liquid agent. By using the liquid agent, it is possible to more reliably decontaminate the facility where the virus may remain.

Here, it is preferable that the decontamination agent further contains a surfactant.
By adopting the above form, it is possible to more reliably decontaminate the facility where the virus may remain.

Accelerated hydrogen peroxide (manufactured by Yamada Medical Lighting Co., Ltd.) can be preferably used as the decontamination agent containing the above hydrogen peroxide and a surfactant.

In the present invention, a decontaminating agent containing hydrogen peroxide and a surfactant may be used separately to clean the space.
Here, the decontamination agent containing hydrogen peroxide and the surfactant do not necessarily have to be used at the same time, and the form in which the surfactant is applied after the decontamination agent is applied, and the decontamination after the surfactant is applied. It may be in any form to which the agent is applied.

(2) Good bacteria spraying work S14
The good bacteria spraying work S14 is a work of spraying good bacteria in the space after the ozone fumigation work S12. By performing the good bacteria spraying operation S14, it is possible to more reliably decontaminate the facility where the virus may remain.

In the space after the above-mentioned ozone fumigation work S12, in addition to the virus to be decontaminated, the number of bacterial cells that do not affect the human body is reduced. Here, in a space where the total amount of bacterial cells is small, there is a risk of invasion of pathogens and new viruses. Therefore, by performing the good bacteria spraying work S14 in the space after the ozone fumigation work S12, the total amount of bacteria in the space reduced by the ozone fumigation work S12 can be returned, and the risk of becoming a re-infection environment is reduced. be able to.

Here, the number of good bacteria to be sprayed is preferably 2 or more, more preferably 3 or more, still more preferably 4 or more, and particularly preferably 5 or more.

Further, in the good bacteria spraying work S14, the good bacteria-containing liquid agent is used, and the good bacteria are sprayed in the space after the ozone fumigation work S12. It is preferable to use a form in which the good bacteria spraying operation S14 is performed.

Here, the amount of good bacteria in the good bacteria-containing liquid agent is preferably 1 million cells / cc or more, more preferably 3 million cells / cc or more, more preferably 5 million cells / cc or more, and more preferably 10 million cells / cc. It is cc or more, more preferably 30 million pieces / cc or more, further preferably 50 million pieces / cc or more, and particularly preferably 100 million pieces / cc or more. In addition, the amount of good bacteria in the liquid containing good bacteria can be 200 million cells / cc or less as a guide.

Here, the amount of the good bacteria-containing liquid agent used in the good bacteria spraying operation S14 is preferably 500 cc or more, more preferably 700 cc or more, still more preferably 800 cc or more, and particularly preferably 900 cc or more per ^{100 m 3.}
By spraying an amount of good bacteria above the lower limit, it is possible to more reliably decontaminate facilities where the virus may remain.

Here, the amount of the good bacteria-containing liquid agent used in the good bacteria spraying operation S14 is preferably 2500 cc or less, more preferably 2000 cc or less, still more preferably 1500 cc or less, and particularly preferably 1200 cc or less per ^{100 m 3.}
By spraying an amount of the good bacteria-containing liquid agent below the upper limit, it is possible to more reliably decontaminate the facility where the virus may remain.

Examples of the liquid agent containing good bacteria include Gran Bio Air (manufactured by Kai Corporation).

Hereinafter, the present invention will be described in more detail with reference to examples.

(1) Facilities where the virus may remain (1-1) Case A patient with a new coronavirus infection (COVID-19) was confirmed on a ship.

(1-2) State in space at the start of decontamination All rooms of the ship in (1-1) above were targeted for decontamination.
At the start of the work, one month has passed since the patient with the above-mentioned (1-1) coronavirus infection (COVID-19) disembarked.

(2) Infection spread prevention work S11
First, in order to prevent secondary damage such as the virus being taken out when leaving the space, a simple shoe sole disinfection container was prepared near the exit of the space.

(3) Ozone fumigation work S12
Using an ozone fumigator (manufactured by Kai Corporation), the ozone concentration in the space was maintained at 6 ppm to 12 ppm for 1 hour.

(4) Hydrogen peroxide and surfactant treatment (cleaning work S13)
After spraying ozone, wipe the wall surface and articles in the space using accelerated hydrogen peroxide (manufactured by Yamada Medical Lighting Co., Ltd., equivalent to a decontamination agent containing hydrogen peroxide and a surfactant) soaked in a waste cloth. Work was done.

(5) Good bacteria spraying work S14
By the ozone fumigation operation S12, not only the virus to be decontaminated but also the bacterial cells that do not affect the human body are reduced.
Therefore, after ozone fumigation work S12, good bacteria containing liquid (Gran bio air, Ltd. Kai Corporation Co., Ltd., good bacteria 120 million pieces / cc) of the stock solution, a guide 1000cc per 100m ^3, the spray of good bacteria-containing liquid Was done. The good bacteria spraying operation S14 can reduce the risk of becoming a virus-infected environment.

By the above method, it is possible to decontaminate a facility where the virus may remain.

The present invention can be applied to decontamination of facilities where the virus may remain.

Claims (5)

A method of decontaminating facilities where there is a possibility of residual virus and / or reducing the risk of virus infection in facilities.
Ozone fumigation work that sprays ozone into the space,
In the space after the ozone fumigation work, the good bacteria spraying work and the good bacteria spraying work
A method characterized by including. The ozone fumigation work is a step of ozone fumigation for 30 minutes or more with the ozone concentration in the space set to 0.5 ppm to 12 ppm.
The method according to claim 1, wherein the good bacteria spraying operation is a step of spraying at least 500 cc or more of a good bacteria-containing liquid agent containing 1 million cells / cc or more of good bacteria per 100 ^{m 3.} The method according to claim 2, wherein the space is cleaned with hydrogen peroxide and a surfactant after the ozone fumigation work and before the good bacteria spraying work. The method according to any one of claims 1 to 3, wherein the virus is a virus that causes a new type coronavirus infection (COVID-19). Includes infection spread prevention work in which a shoe sole disinfection container is prepared near the exit of the facility where the virus may remain, and the virus attached to the shoe sole is removed with the shoe sole disinfection container when leaving the space. The method according to any one of claims 1 to 4, wherein the method is characterized by the above.

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