KR102284870B1 - Disinfectant having improved sterilization area and the manufacturing method - Google Patents

Abstract

An objective of the present invention is to obtain a disinfectant which can exhibit sterilization power on various surfaces ranging from hydrophilic materials such as glass as well as surfaces with water-repellent properties, such as plastic resin, and the like, and can increase sterilization and disinfection performance by securing a large contact area. In order to achieve the above objective, the present invention provides a manufacturing method of a disinfectant with an improved sterilization area, comprising: a first step (S10) of preparing non-acidic hypochlorous acid water containing 10-80 ppm of effective chlorine; a second step (S20) of preparing water-soluble polyol (S20); and a third step (S30) of mixing the non-acidic hypochlorous acid water and the water-soluble polyol (S30), wherein the water-soluble polyol is at least one of ethylhexyl glycerin, glycerin, butylene glycol, dipropylene glycol, and propylene glycol. Accordingly, the present invention can exhibit sterilization power on various surfaces ranging from hydrophilic materials such as glass as well as surfaces with water-repellent properties such as plastic resins, and the like, and can increase the sterilization and disinfection performance by securing a larger contact area.

Description

Disinfectant having improved sterilization area and the manufacturing method

The present invention relates to a disinfectant with improved sterilization area and a method for manufacturing the same. In particular, it relates to a sterilizing disinfectant with an improved sterilization area by adding a small amount of additives to hypochlorous acid water to minimize surface tension to maximize the contact area, and to a method for manufacturing the same.

Methods for controlling microorganisms include physical methods, chemical methods, mechanical methods, and biological methods. The chemical method shows an effect by specifically contacting a chemical substance that is effective for controlling, controlling, and killing microorganisms. it can be seen that Classification of substances used in chemical treatment methods can be classified into phenolic, alcohol, halogen, heavy metal, quaternary ammonium ion compound, aldehyde, and sterilizing gas. All of these have their own advantages and disadvantages.

Meanwhile, non-acidic hypochlorous acid certified by the Ministry of Food and Drug Safety or the Ministry of Environment is a substance commonly used not only in Korea, but also in Japan, Europe, and the United States over the past few decades. It is known to exert strong sterilizing power with a low effective chlorine concentration of 10 to 30 ppm (legal standard is 10 to 80 ppm). In particular, it can be said that it is an advantage that it shows a level similar to the pH 5.5 of healthy skin, so that skin irritation is relatively small.

As the prior art on improved hypochlorous acid water published in Korea, Korean Patent Publication No. 10-1286088 "Method for producing hypochlorous acid with high stability", Republic of Korea Patent Publication No. 10-1925900 "Improved long-term storage properties" Hypochlorous acid water and its manufacturing method", Republic of Korea Patent Publication No. 10-1297712 "Disinfectant containing soybean protein in hypochlorous acid water", etc.

However, the above prior art uses the sterilization power of hypochlorous acid water well, but there is a problem in that it has a sterilization range in which the efficiency is physically lowered due to the surface tension.

Republic of Korea Patent Publication No. 10-1286088 Republic of Korea Patent Publication No. 10-1925900 Republic of Korea Patent Publication No. 10-1297712

An object of the present invention is to obtain a sterilizing agent that can exhibit sterilization power on a variety of surfaces ranging from water-repellent materials such as glass as well as surfaces with water-repellent properties such as plastic resin, and increase sterilization and disinfection performance by securing a large contact area do it with

Another object of the present invention is to obtain a sterilizing agent that sterilizes harmful bacteria by contacting the surface area as much as possible by further reducing the surface tension.

The present invention, in order to achieve the above object, a first step (S10) of preparing a non-acidic hypochlorous acid water containing 10 to 80 ppm of effective chlorine; a second step of preparing a water-soluble polyol (S20); And, a third step (S30) of mixing the non-acidic hypochlorous acid water and the water-soluble polyol; but, the water-soluble polyol is ethylhexyl glycerin, glycerin, butylene glycol, dipropylene glycol and propylene glycol There is provided a method for producing a sterilizing agent with an improved sterilization area, characterized by at least one or more feathers.

Here, the non-acidic hypochlorous acid water is 99.9 to 99.999% by weight, and the water-soluble polyol is 0.1 to 0.001% by weight.

Further, after the third step, a fourth step of preparing a pure alcoholic substance (S40); a fifth step (S50) of preparing a fluorine surfactant or a silicone surfactant; and, a sixth step (S60) of preparing a mixed solution 101 by mixing the non-acidic hypochlorous acid water with a water-soluble polyol, a pure alcohol-based material, and a fluorine surfactant or a silicone surfactant; but, the pure alcohol-based material is isopropyl alcohol and 1-octanol, the slightly acidic hypochlorous acid water is 99% by weight, the water-soluble polyol is 0.1% by weight, the pure alcohol-based material is 0.3 to 0.5% by weight, the fluorine surfactant or silicone surfactant is characterized in that it contains 0.4 to 0.6 wt%.

Further, after the sixth step, the mixed solution 101 is put into the container 110 of the spraying device 100 and a plurality of neodymium bead magnets 130 are inserted into the suction pipe 120, and then the end of the suction pipe A seventh step (S70) of spraying by attaching a stopper 150 to the body, but the stopper 150 is in the form of a mesh and the rim is characterized in that it is composed of a band 151 containing an iron component.

In addition, in the present invention, there is provided a disinfectant with an improved sterilization area, characterized in that it contains a water-soluble polyol in non-acidic hypochlorous acid water containing 10 to 80 ppm of effective chlorine.

Here, the non-acidic hypochlorous acid water is 99.9 to 99.999 weight %, and the water-soluble polyol is characterized in that 0.1 to 0.001 weight %.

Further, the water-soluble polyol is characterized in that at least one or more of ethylhexyl glycerin, glycerin, butylene glycol, dipropylene glycol and propylene glycol.

According to the above configuration, the present invention can exhibit sterilization power on various surfaces ranging from water-repellent materials such as glass as well as surfaces with water-repellent properties such as plastic resins, There is an advantageous effect of increasing the sterilization and disinfection performance by securing a larger contact area.

In addition, according to the present invention, there is an advantageous effect of sterilizing harmful bacteria by contacting the surface area as much as possible by further reducing the surface tension using an alcohol-based or surfactant.

In addition, according to the present invention, there is an advantageous effect of increasing the maximum contact area by further reducing the surface tension by manufacturing the magnetized hexagonal water using a simple configuration and structure.

1 is a flow chart for performing a method of manufacturing a disinfectant with an improved sterilization area of the present invention.
Figure 2 is a perspective view of a conventional spray device, Figure 3 is a perspective view showing the rest of the configuration except for the container in the conventional spray device, Figure 4 is a plan view of a stopper used in the method for producing a disinfectant with improved sterilization area of the present invention and FIG. 5 is a diagram illustrating a combination of a neodymium magnet and a stopper used in the method for producing a disinfectant with an improved sterilization area of the present invention.
6 is a photograph comparing Test Example 1 in the disinfectant with improved sterilization area of the present invention.
7 is a photograph comparing Test Example 2 in the disinfectant with improved sterilization area of the present invention.
8 is a photograph comparing Test Example 1 in the disinfectant with improved sterilization area of the present invention.
9 is a photograph comparing Test Example 2 in the disinfectant with improved sterilization area of the present invention.

The above objects, features and other advantages of the present invention will become more apparent by describing preferred embodiments of the present invention in detail with reference to the accompanying drawings. Hereinafter, with reference to the accompanying drawings, a sterilizing disinfectant having an improved sterilization area and a manufacturing method thereof according to an embodiment of the present invention will be described in detail.

1 is a flow chart for performing a method of manufacturing a sterilizing agent having an improved sterilization area according to the present invention.

First, the first step (S10) of preparing non-acidic hypochlorous acid water containing 10-80 ppm of effective chlorine proceeds.

In general, non-acidic hypochlorous acid water is produced using a diaphragm-free electrolysis device without a diaphragm. In an electrolyzer, hydrochloric acid water containing about 6% hydrochloric acid is electrolyzed to produce slightly acidic hypochlorous acid water, and chlorine ions ( Cl-) is oxidized to become chlorine Cl ₂ (aq) and reacts with raw water to produce hypochlorous acid (HOCl), and it is common to prepare slightly acidic hypochlorous acid water with a pH of 5.0 to 6.5 by mixing and diluting a large amount of raw water. it is a device At this time, a small amount of sodium chloride is sometimes added to hydrochloric acid for stabilization.

Non-acidic hypochlorous acid (HOCl) is known to have sterilizing and inactive effects even at very low concentrations compared to conventional ethanol-based solutions and to have sterilizing power against harmful bacteria even at a relatively low concentration of 10 to 30 ppm compared to sodium hypochlorite, which is the same halogen type. As a general sterilization mechanism, all living things, including humans, have cells and cell membranes that make up cells. Chloride ions or hydrogen ions play a role by destroying cell membranes, or invade into cells to disrupt metabolism of various intracellular organelles, etc. , It is known to sterilize by binding or modifying RNA, etc.

Next, a second step (S20) of preparing a water-soluble polyol is performed.

The water-soluble polyol is preferably at least one of ethylhexyl glycerin, glycerin, butylene glycol, dipropylene glycol and propylene glycol. In the present invention, the water-soluble polyol is very easily soluble in water at room temperature and is characterized in that it is at least one selected from a material consisting of only carbon, hydrogen and oxygen.

In particular, the slightly acidic hypochlorous acid water is 99.9 to 99.999% by weight, and the water-soluble polyol is preferably 0.1 to 0.001% by weight.

Here, even when the water-soluble polyol is used in an amount of 0.1 wt % or more, there is almost no increase in surface area due to a decrease in surface tension, and poor effects such as increase in stickiness are exhibited.

In addition, when the water-soluble polyol is used in an amount of 0.001% or less based on the total weight of the disinfectant, the effect of increasing the application area during spraying is reduced along with the difficulty of measuring the amount of polyol in small-scale production.

Next, a third step (S30) of mixing the non-acidic hypochlorous acid water and the water-soluble polyol is performed.

The present invention is to improve the sterilization area by changing the surface wetting of non-acidic hypochlorous acid water. In the case of general non-acidic hypochlorous acid water, most of the components are water and it is composed of a very small amount of hypochlorous water. Depending on this, there is a difference in the application area. For example, it can be easily predicted that water-friendly glass will have a large application area even with the same amount of non-acidic hypochlorous acid water compared to plastic materials.

It is necessary to widen the sterilization power of non-acidic hypochlorous acid water by increasing the contact area for materials that are not friendly to water, which can be said to be such a technical limitation of the prior art. In view of this, in the present invention, the existing water-soluble polyol is added by adding the water-soluble polyol to the non-acidic hypochlorous acid water in an optimal content to improve the surface wetting properties of the non-acidic hypochlorous acid water to improve the contact area per unit mass or volume. It was possible to confirm the advantageous effect of broadening the range of sterilization and disinfection power per unit weight by making the non-acidic hypochlorous acid water wet over a wider area even for plastic resin materials with strong water repellency compared to those that are not.

Next, a fourth step (S40) of preparing a pure alcohol-based material may be performed.

Pure alcohol-based substances are substances that can lower the surface tension of small molecular weight. In particular, isopropyl alcohol and 1-octanol have a lower surface tension and a higher boiling point than any other alcoholic solvent.

Next, a fifth step (S50) of preparing a fluorine surfactant or a silicone surfactant may be performed.

Like the pure alcohol-based material, a fluorine surfactant or a silicone surfactant also has a low surface tension.

Next, the sixth step (S60) of preparing the mixed solution 101 by mixing the non-acidic hypochlorous acid water, the water-soluble polyol, a pure alcohol-based material, and a fluorine surfactant or a silicone surfactant may be further performed.

On the other hand, wherein the non-acidic hypochlorous acid water is 99% by weight, the water-soluble polyol is 0.1% by weight, the pure alcohol-based material is 0.3 to 0.5% by weight, the fluorine surfactant or silicone surfactant is 0.4 to 0.6% by weight containing it's good

The fluorine surfactant or silicone surfactant is undesirable because the color of the solution is slightly cloudy in the numerical range exceeding 0.4 to 0.6% by weight and causes a trace on the surface, and the surface tension is 25 mN/m or more below the numerical range It did not meet the low surface tension derivation pursued by the present invention.

Furthermore, after the sixth step (S60), the mixed solution 101 is put into the container 110 of the spraying device 100 and a plurality of neodium bead magnets 130 are inserted into the suction pipe 120, A seventh step (S70) of spraying by mounting a stopper 150 at the end of the suction pipe 120 may be further performed.

A typical spraying device 100 mounts a suction pipe 120 and generates a pressure difference to suck and spray the internal solution.

On the other hand, since the magnetized hexagonal water is known to reduce the surface tension, the present invention discloses a device for magnetizing an internal solution relatively simply while using the existing spray device 100 as it is.

Figure 2 is a perspective view of a conventional spraying device 100, Figure 3 is a perspective view showing the rest of the configuration except for the container 110 from the conventional spraying device 100, Figure 4 is a sterilizing disinfectant with improved sterilization area of the present invention It is a plan view of the stopper 150 used in the manufacturing method, and FIG. 5 is a diagram showing the combination of the neodymium magnet 130 and the stopper 150 used in the manufacturing method of the sterilizing disinfectant with improved sterilization area of the present invention.

2 to 5, the stopper 150 is in the form of a mesh and the rim is composed of a band 151 containing an iron component. The mesh shape is to allow the solution to pass freely, and the reason why the band 151 contains iron is a separate device on the outer circumferential surface of the suction pipe 120 by the attractive force of the neodymium magnet 130 in the suction pipe 120 . This is so that the band 151 can be attached with a strong force even if there is no .

As shown in FIG. 5, after inserting four neodymium bead magnets 130 into the suction pipe 120, and wrapping the opening of the suction pipe 120 with a stopper 150, it can be seen that they are naturally attached to the outer circumferential surface by the magnet 130. . Therefore, the internal solution is sucked and passed through the magnet 130, so that it can be immediately magnetized during use.

[Table 1] shows two test examples corresponding to the limits of the numerical range of the present invention. In the test example, the polyol was selected as glycerin.

Test Example 1 Test Example 2 Slightly acidic hypochlorous acid water 99.9% by weight 99.999% by weight glycerin 0.1% by weight 0.001% by weight

6 is a photograph comparing Test Example 1 in the disinfectant with improved sterilization area of the present invention, and the photograph on the left is a photograph showing the result of dropping one shot of the disinfectant of the present invention using a dropper on a plastic material; The photo on the right shows the result of dropping 100% of non-acidic hypochlorous acid water onto a plastic material using a dropper. As can be seen from FIG. 6 , it can be seen that in Test Example 1 of the present invention, the radius of curvature of the drop was larger than that of the photo on the right, and thus the contact area with the surface was large. This also means that the surface tension has decreased.

7 is a photograph comparing Test Example 2 in the disinfectant with improved sterilization area of the present invention, and the photograph on the left is a photograph showing the result of dropping a drop of the disinfectant of the present invention using a dropper on a plastic material; The photo on the right shows the result of dropping 100% of non-acidic hypochlorous acid water onto a plastic material using a dropper. As can be seen from FIG. 7 , it can be seen that in Test Example 2 of the present invention, the radius of curvature of the drop was larger than that of the photo on the right, and thus the contact area with the surface was large. As in Fig. 6, this also means that the surface tension is reduced.

8 is a photograph comparing Test Example 1 in the disinfectant with improved sterilization area of the present invention, and the photograph on the left shows the result of dropping one shot of the disinfectant of the present invention using a dropper on a glass material, The photo on the right shows the result of dropping 100% of non-acidic hypochlorous acid water on the glass material using a dropper. As can be seen from FIG. 8 , in Test Example 1 of the present invention, as in the case of a plastic material, the radius of curvature of the drop is larger than that of the photo on the right, and thus it can be seen that the contact area with the surface is large. This also means that the surface tension has decreased.

9 is a photograph comparing Test Example 2 in the disinfectant with improved sterilization area of the present invention, and the photograph on the left shows the result of dropping a drop of the disinfectant of the present invention using a dropper on a glass material; The photo on the right shows the result of dropping 100% of non-acidic hypochlorous acid water on the glass material using a dropper. As can be seen from FIG. 9 , in Test Example 2 of the present invention, as in the case of a plastic material, the radius of curvature of the drop is larger than that of the photo on the right, and thus it can be seen that the contact area with the surface is large. As in FIG. 8 , this also means that the surface tension is reduced.

As can be seen from the results of FIGS. 6 to 9, it was confirmed that the range of change according to the content of the water-soluble polyol was large, and even though the content of the water-soluble polyol was very small, 0.001%, the contact angle and the contact area were confirmed visually. Although there was a change, it was confirmed that even if the content of the water-soluble polyol was increased to 0.1%, the change in the apparent contact angle and contact area was not significant.

As described above, various design changes may be attempted within the same scope as the subject of the present invention, but unless unexpected new effects appear in the present invention due to these design changes, the scope of the present invention cannot be departed from. will be.

100: atomizer
110: courage
101: mixed solution
120: suction pipe
130: neodymium bead magnet
150: stopper
151: band

Claims (3)

A first step (S10) of preparing non-acidic hypochlorous acid water containing 10 to 80 ppm of effective chlorine;
a second step of preparing a water-soluble polyol (S20);
A third step of mixing the non-acidic hypochlorous acid water and the water-soluble polyol (S30);
a fourth step of preparing a pure alcoholic substance (S40);
a fifth step (S50) of preparing a fluorine surfactant or a silicone surfactant;
a sixth step (S60) of preparing a mixed solution 101 by mixing the non-acidic hypochlorous acid water with a water-soluble polyol, a pure alcohol-based material, and a fluorine surfactant or a silicone surfactant; and,
Putting the mixed solution 101 into the container 110 of the spraying device 100, inserting four neodymium bead magnets 130 into the suction pipe 120, iron fiber into the opening at the end of the suction pipe The step of wrapping with a stopper 150 having a band 151 containing it, the step of attaching the band 151 of the stopper 150 to the outer peripheral surface of the suction pipe by the attractive force of the neodymium bead magnet 130, and the mixed solution A seventh step (S70) of spraying the mixed solution 101, which includes a step in which 101 is sucked into the suction pipe 120 and immediately magnetized while passing through the neodymium bead magnet 130;
The water-soluble polyol is at least one of ethylhexyl glycerin, glycerin, butylene glycol, dipropylene glycol and propylene glycol;
The pure alcoholic substances are isopropyl alcohol and 1-octanol,
The non-acidic hypochlorous acid water contains 99% by weight, the water-soluble polyol is 0.1% by weight, the pure alcohol-based material is 0.3 to 0.5% by weight, the fluorine surfactant or silicone surfactant is 0.4 to 0.6% by weight,
Here, the stopper 150 is
The solution is in the form of a mesh through which the solution freely passes, and the rim is composed of a band 151 containing an iron component. 151) is a method for producing a disinfectant with an improved sterilization area, characterized in that it is attached with a strong force. delete delete

Images