KR20210143383A - Volatile Anti-Bacterial Pack manufacturing method which has Anti-Bacterial and Sterilization with Deodorizing function - Google Patents

Abstract

The present invention relates to a method for producing an evaporative antibacterial agent having antibacterial, sterilizing, and deodorizing functions, in which the agent is produced by using a natural deodorant and a natural antibacterial agent made of food additives or food extracts, thereby being safe to the human body and being implemented without causing environmental pollution. In particular, vaporization power of each component is promoted by using octanoic acid components of a coconut oil extract, and thus can be produced to maintain antibacterial and deodorizing power of indoor air for a long time without spraying or application. In particular, the present invention can be packaged in a unit by means of breathable non-woven fabric such that the range of use thereof is expanded and thus, use of the present invention in a place where antibacterial and deodorizing functions are required is conveniently achieved. The method comprises: a grinding and mixing step (S10) of grinding a hardened resin into a size of 50-70 mesh, wherein zeolite and ground resin powder are mixed in a mixing ratio of 70:30 to prevent the ground resin powder from being agglomerated; a mixing and stirring step (S20) of adding pine bark powder and cinnamon powder to the mixture thereof so as to improve sterilization and antibacterial action; a high-speed mixing step (S30) of mixing the mixture thereof with components of a coconut oil extract so as to improve vaporization power of the mixture; and a packaging step (S40) of packaging the mixture thereof in breathable non-woven fabric.

Description

Volatile Anti-Bacterial Pack manufacturing method which has Anti-Bacterial and Sterilization with Deodorizing function}

The present invention relates to a method for manufacturing a vaporizable antibacterial pack having antibacterial, sterilizing, and deodorizing functions, and in particular, it is safe to the human body by using a substance having vaporization power and antibacterial, deodorizing, sterilizing effect, etc. composed of natural plant or food extracts, It is a vaporizable antibacterial pack manufacturing method that continuously removes airborne bacteria, mold, harmful bacteria and various pathogenic bacteria in the indoor air without causing environmental pollution, and removes various odors from indoors, furniture, and shoes by adding a deodorant. it's about

As the degree of air pollution increases and the quality of life increases, the degree of indoor air pollution in homes and offices is increasing day by day, and at the same time, harmful pathogens such as various airborne bacteria, fungi, and harmful bacteria in the air are also increasing relatively. .

In particular, in the current situation where ventilation is not frequent due to the increase in air pollution and fine dust in the air, the damage caused by harmful pathogens such as various bacteria and bacteria in the air is increasing day by day. The number of patients with the disease continues to increase, and the number of respiratory patients in the last five years in the first quarter of this year is renewing a record high.

In order to remove pathogenic harmful bacteria, such as airborne bacteria, harmful bacteria, and molds, conventionally, a mist-type disinfectant is applied or various disinfectants are applied, so that various bacteria in the air have been removed. However, this kind of application method is a method of mass-spraying through a professional company, so there is a limit in use to eliminate harmful bacteria in the indoor air such as home or office. In addition, the damage caused by mold in the air is increasing day by day. Incidental damage caused by mold or moisture on household items, clothes, shoes, etc. is also increasing.

In the conventional case, a desiccant using a desiccant such as silica gel, a mineral desiccant, or calcium chloride has been mainly used as a dehumidifier to prevent mold growth.

Silica gel has a problem of causing various environmental pollution or adversely affecting the ecosystem because the water absorption rate of silica gel is only about 20-30% of its own weight and also has a low acidity, which causes acidification of the soil when discarded.

To solve these various problems, we developed a vaporizable antibacterial pack that is harmless to the human body, eco-friendly and easy to use, with antibacterial, sterilizing and deodorizing functions for indoor air.

As prior art of vaporizable antibacterial pack, Republic of Korea Patent Registration No. 1014070510000 “Natural antibacterial and deodorant using leek extract and its manufacturing method (registration date: Jun. 5, 2014)” and Republic of Korea Patent Registration No. 1019912610000 “Antibacterial, sterilizing and An antibacterial deodorant with improved deodorization (registration date: 2019.06.14)” is disclosed.

The prior art is a resin and a liquid product, mainly used by application, so there is a limit to the object for sterilization, and the method using the resin is a method with many restrictions on use.

In particular, in the case of liquid products, there are many factors that can cause discoloration and color change of clothes by the extract when spraying, so be careful when using it.

In addition, since the method using the resin has insufficient vaporization power, there are many products that have antibacterial action on the contact site, but whose antibacterial power in the air is difficult to expect.

Republic of Korea Patent Registration No. 1014070510000 “Natural antibacterial and deodorant using leek extract and manufacturing method thereof” (Registration date: 2014.06.05) Republic of Korea Patent Registration No. 1019912610000 “Antibacterial, antibacterial and deodorizing agent with improved antibacterial, sterilizing and deodorizing properties” (Registration date: 2019.06.14)

An object of the present invention is to effectively remove harmful pathogens such as airborne bacteria, mold, and harmful bacteria in the indoor air and to remove various odors in the air by adding deodorizing power, such as pine bark, rosin, zeolite, cinnamon powder and coconut oil extract ingredients. Safe and non-polluting deodorizing function and antibacterial and sterilizing action that can maintain continuous antibacterial, sterilizing and deodorizing action for a long time by increasing the vaporization power of ingredients without cumbersome work such as application or misting by using natural materials of This is a vaporizable antibacterial pack manufacturing method.

In order to achieve the above object, the vaporizable antibacterial pack manufacturing method of the present invention grinds the rosin in the hardened state to a size of 50 to 70 mesh, and mixes the zeolite and the pulverized rosin powder with a weight of 70:30 so that the pulverized rosin powder does not agglomerate. Grinding and mixing step of mixing in a ratio (S10), mixing and stirring step of adding pine bark powder and cinnamon powder to the mixture to improve sterilization and antibacterial action (S20), and mixing coconut oil extract with the mixture It consists of a high-speed mixing step (S30) to improve thermal power, and a packaging step (S40) of packaging the mixture in a breathable nonwoven fabric.

In addition, the moisture absorbent is 200 parts by weight to 300 parts by weight of the rosin with respect to 1000 parts by weight of pine bark powder, the zeolite is 400 parts by weight to 600 parts by weight, and the cinnamon powder is 50 parts by weight to 100 parts by weight, Coconut oil extract is characterized in that 20 to 40 parts by weight.

In addition, the air density (Vapor Density) of the vaporizable antibacterial agent is characterized in that 2 or more.

The method for producing a vaporizable antibacterial agent having an antibacterial and deodorizing function of the present invention uses a natural deodorant made of food additives or food extracts, a natural antibacterial agent, etc. was manufactured to maintain the antibacterial and deodorizing power of the indoor air for a long time without spraying or application by promoting it using the octanoic acid component of coconut oil extract. It has the feature of expanding the range of use for convenient use.

1 is a process flow chart of a method for manufacturing a desiccant having a deodorizing and antibacterial function of the present invention.

With reference to the accompanying drawings, the method of manufacturing a vaporizable antibacterial pack having an antibacterial and deodorizing function of the present invention will be described in detail.

As shown in Figure 1, the vaporizable antibacterial pack manufacturing method of the present invention pulverizes the solidified rosin to a size of 50 to 70 mesh, but mixes the zeolite and the pulverized rosin powder in a 70:30 ratio so that the pulverized rosin powder does not agglomerate. pulverizing and mixing step (S10), mixing and stirring step (S20) of adding pine bark powder and cinnamon powder to the mixture to improve sterilization and antibacterial action (S20), mixing the octanoic acid in the coconut oil extract with the mixture to form the mixture It consists of a high-speed mixing step (S30) to improve thermal power, and a packaging step (S40) of packaging the mixture in a breathable nonwoven fabric.

In addition, the moisture absorbent is 200 parts by weight to 300 parts by weight of the rosin with respect to 1000 parts by weight of pine bark powder, the zeolite is 400 parts by weight to 600 parts by weight, the cinnamon powder is 50 parts by weight to 100 parts by weight, Octanoic acid in the coconut oil extract is composed of 20 to 40 parts by weight.

In addition, the air density (Vapor Density) of the vaporizable antibacterial agent is mixed to have 2 or more.

The operation of the vaporizable rust preventive desiccant manufacturing method according to the present invention according to the above configuration is as follows.

In the grinding and mixing step (S10), rosin having a sterilizing and antibacterial action is pulverized and a zeolite known as a deodorizing and moisture absorbent is mixed with rosin and zeolite in a weight ratio of 70:30.

At this time, if a small amount of zeolite is mixed, the pulverized rosin powder hardens and gelation occurs, resulting in a high defect rate during pack operation. If the amount of zeolite is large, it is uneconomical.

Therefore, in the present invention, in the mixing and grinding step (S10), zeolite and rosin are selected and used in a ratio of 70:30.

In the mixing and stirring step (S20), pine bark powder and cinnamon powder are added to the mixture prepared in the mixing and grinding step (S10) and mixed at room temperature at 750 rpm/min. using a mixer to prepare a mixture with increased antibacterial activity.

At this time, 50 to 100 parts by weight of cinnamon powder is mixed with 1000 parts by weight of pine bark.

If the amount of cinnamon powder is too much, it can be irritating with too strong cinnamon flavor. It is appropriate to use 50 to 100 parts by weight of cinnamon powder to maintain a harmonious flavor with rosin.

In the high-speed mixing step (S30), octanoic acid, a coconut oil extract, is added to the mixture of (S20) in a high-speed mixer at room temperature at 2,500 rpm/min. and a desiccant having an antibacterial function.

In this case, it is appropriate to use 20 to 40 parts by weight of octanoic acid in 1000 parts by weight of zeolite.

If you use a lot of octanoic acid, liquid octanoic acid is likely to seep into the nonwoven fabric, and the smell is also strong, which can be irritating.

In total, 200 to 300 parts by weight of the rosin with respect to 1000 parts by weight of the pine bark powder, the zeolite is 400 to 600 parts by weight, the cinnamon powder is 50 to 100 parts by weight, and the coconut oil extract It is appropriate to mix 20 to 40 parts by weight of heavy octanoic acid.

In particular, zeolite contributes to moisture absorption and deodorization functions, rosin, pine bark powder, and cinnamon powder contribute to antibacterial and sterilization functions, and octanoic acid contributes to sterilization and enhancement of vaporization power of the mixture. In order to measure the deodorizing power, antibacterial power, and sterilization power of the mixture, each sample was prepared as follows.

sample 1

A sample mixture was prepared using 50 parts by weight of pine resin, 200 parts by weight of zeolite, and 30 parts by weight of cinnamon powder in 1000 parts by weight of pine bark.

sample 2

100 parts by weight of pine resin, 300 parts by weight of zeolite, 50 parts by weight of cinnamon powder, and 20 parts by weight of octanoic acid were used in 1000 parts by weight of pine bark to prepare a sample mixture.

sample 3

A sample mixture was prepared by using 150 parts by weight of rosin, 300 parts by weight of zeolite, 50 parts by weight of cinnamon powder, and 30 parts by weight of octanoic acid in 1000 parts by weight of pine bark.

sample 4

A sample mixture was prepared using 200 parts by weight of pine resin, 400 parts by weight of zeolite, 50 parts by weight of cinnamon powder, and 50 parts by weight of octanoic acid in 1000 parts by weight of pine bark.

sample 5

A sample mixture was prepared by using 300 parts by weight of pine resin, 600 parts by weight of zeolite, 100 parts by weight of cinnamon powder, and 100 parts by weight of octanoic acid in 1000 parts by weight of pine bark.

[Table 1] puts 5cc of Methane Gas in 1000ml jar, 10g of each of the samples 1 to 5 was packaged in a leucite with a non-woven fabric, and then each non-woven fabric sealed by heat sealing was put in, and the deodorization power was measured after 3 hours. (Measuring instrument: ShinYei Model: OMX-SRM).

Sample One 2 3 4 5 deodorizing power 1.83 0.36 0.37 0.36 0.34

It was confirmed that the deodorization power of all samples except for Sample 1 was 90% or more.

It was confirmed that the deodorizing power of the samples except for Sample 1 was relatively good.

[Table 2] shows the results of testing the antibacterial activity. Each 20g sample pack was put in the shoe, and the antibacterial activity was measured after 3 hours (measurement device: ATP measuring device Kikkoman).

sample pack before application after application sample 1 2088 92 sample 2 2119 16 sample 3 2338 12 sample 4 2469 8 sample 5 2312 7

As a result of [Table 2], it can be confirmed that all of the sample packs have an antibacterial activity of 95% or more.

[Table] shows the results of measuring airborne bacteria in the air.

After putting 20 g of each sample pack in the 0.5 CBM space, the airborne bacteria were measured using RCS AIR SAMPLER (Filter: Agar Part No. 941100) after 6 hours (measurement unit: CFU/CBM).

sample pack before application after application sample 1 89 22 sample 2 104 14 sample 3 98 10 sample 4 100 12 sample 5 88 5

As a result of the sample experiment, it was confirmed that airborne bacteria in the air were significantly reduced.

[Table 4] is the result of the antimicrobial test according to KS K 0693:2016. The bacteria used was Klebsiella pneumoniae (ATCC 4352).

sample pack Bacterial reduction rate (%) sample 1 99.4 sample 2 99.9 sample 3 99.9 sample 4 99.9 sample 5 99.9

As a result of the experiment, it was confirmed that all samples except for Sample 1 had an antibacterial activity of 99.9% or more.

[Table 5] shows the deodorization test of ammonia and acetic acid by the JTETC method. The experimental method is to put a sample sample pack (2g) in a 5L tetrabag, inject 3L of gas whose initial concentration is adjusted, and then measure the gas concentration with a detection tube (ammonia: 3La, acetic acid: 81) 2 hours later.

sample pack Decrease rate (%) ammonia acetic acid sample 1 83.2 89.2 sample 2 99.9 99.9 sample 3 99.9 99.9 sample 4 99.9 99.9 sample 5 99.9 99.9

As a result of sample measurement, 99.9% of all results were confirmed except for Sample 1.

Claims (4)

A method of manufacturing a vaporizable antibacterial pack that uses pine bark, cinnamon powder, rosin, zeolite, and octanoic acid, which is a component of coconut oil extract among C8~C12 carboxylic acids, and has antibacterial, deodorizing and sterilizing properties.
The method of claim 1, wherein in the grinding and mixing step (S10), zeolite and rosin are mixed in a weight ratio of 70:30.
According to claim 1, 200 parts by weight to 300 parts by weight of the rosin with respect to 1000 parts by weight of the pine bark powder, the zeolite is 400 parts by weight to 600 parts by weight, the cinnamon powder is 50 parts by weight to 100 parts by weight, The vaporizable antibacterial pack manufacturing method, characterized in that the octanoic acid in the coconut oil extract is comprised of 20 to 40 parts by weight.
The method of claim 1, wherein the vaporizable antibacterial pack has an air density of 2 or more.

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