KR100865979B1 - Literary composition for sterilization and preparation method thereof - Google Patents

Abstract

The present invention relates to a sterilizing lime composition and a method for preparing the same, and more particularly, comprising a lime, a halogen-based fungicide, a cationic surfactant, an aldehyde-based fungicide and a polyalcoholic-based wetting agent, and applied in powder or liquid form. It relates to a lime composition for disinfecting with possible features.

According to the present invention, solving the problems such as strong exothermic reaction, blowing dust, short duration of sterilization power when using the existing quicklime by mixing with water, high sterilization and a variety of germs, such as foot and mouth disease, avian influenza It can be expected to have the effect of showing the disinfecting property, excellent durability, and obtain the advantages of use that can be applied by a simple method of spraying the target components after mixing the composition components.

Description

Disinfectant lime composition and its preparation method {Disinfectant lime composition and its preparing method}

The present invention relates to a bactericidal lime composition and a method for producing the same.

There are various disinfectant disinfectants, such as chlorine, iodine, bromine, inactive soap, peroxidant, acidic, alkaline and phenolic alcohol. Each disinfectant works best under certain conditions.

Disinfecting livestock houses includes disinfection of equipment such as milking machines, and entrances that can be used for the passage of livestock houses and bacteria. However, because of the large amount of powder, urine, dust, etc. to reduce the effectiveness of the disinfectant is difficult to disinfect the barn.

Therefore, it is necessary to select a disinfectant disinfectant which is effective without being affected by those which lower the effect of disinfectant. Lime disinfection is one of the methods of disinfection that meets these conditions.

Lime oil mixed with water and quicklime reaches a very high temperature by exothermic reaction, and bacteria on the barn's wall are sterilized by this high temperature, or the bacteria or parasite eggs remaining on the wall are limed. Since the chance of contact is lost, or because it becomes hydrated lime with strong alkaline properties, bacteria in contact with hydrated lime are sterilized and disinfected on the principle of melting of cell walls.

As such, lime is strongly disinfected by high temperature, sequestration (lime-blocking the opportunity for bacteria to come into contact with cows), and strong alkali three-stage attack, but over time, it absorbs carbon dioxide in the air and converts it into calcium carbonate for sterilization and Disinfection effect is lost.

In addition, the conventional quicklime had a risk of fire due to a rapid exothermic reaction when it comes in contact with water, and the powder is scattered, which causes inconvenience in handling.

In order to solve this problem, the quicklime was used as a granule, but the granulated quicklime had to be used in large quantities in order to expect a sterilizing effect, and when the granular quicklime was sprayed on the road, the granules were broken during the passage of the vehicle and the powder was scattered again. I have a problem.

In view of the bactericidal power, the existing quicklime shows a bactericidal effect only on some bacteria, so in order to expect a bactericidal effect on various bacteria, a separate antimicrobial agent or bactericide must be used in parallel.

In terms of sustainability, conventional quicklime reacts easily with moisture and carbon dioxide in the air, which lowers the pH, and thus the disinfecting power is not sustained. This reaction of quicklime occurs faster as the temperature in the air is pointed out as a bigger problem in summer when the growth of bacteria is active.

Liquid sterilizer is also used to solve the problem of powdered quicklime, liquid sterilizer is not easy to distinguish whether spraying, has a problem that is easily washed off when rain.

Therefore, there is a growing need for disinfectant lime for disinfection, which has a wide range of bactericidal power, long-lasting effects, and ease of use for livestock farmers and livestock farmers. .

The inventors of the present invention have been researched to solve the above problems, as a result of adding a halogen-based fungicide, an aldehyde-based fungicide to slaked lime improves the sterilization power, expresses a high bactericidal power against a variety of germs and viruses, etc. By selecting and using cationic surfactant, it is possible to suppress antagonism between components, and it is composed of cationic surfactant and polyhydric alcohol humectant, so it is effective in suppressing dust blowing and strengthening duration of sterilizing power. It was found that the expression of the present invention was completed.

In addition, according to the present invention it can be expected that the effect of obtaining the advantages in use that can be applied by a simple method of spraying to the target material after mixing each component.

Accordingly, an object of the present invention is to provide a sterilizing and disinfecting lime composition having a strong bactericidal and sustaining ability against various pathogens, such as foot-and-mouth disease and avian influenza, and having a feature applicable to powder or liquid.

As an example for solving the above problems, the lime composition for disinfecting sterilization of the present invention is 20 to 95% by weight of hydrated lime (Ca (OH) ₂ ), 0.01 to 20% by weight of a halogen type disinfectant, and 0.1 to 20% by weight of a cationic surfactant. %, 0.1 to 20% by weight of aldehyde-based fungicide and 1 to 20% by weight of polyhydric alcohol-based wetting agent.

As another example for solving the above problems, in the method for producing a sterilizing lime composition of the present invention, calcined lime (Ca (OH) ₂ ) and a cationic surfactant are mixed, and a halogen-based fungicide and an aldehyde-based After the addition of the sterilizing agent is mixed, the polyhydric alcohol-based wetting agent is added and mixed.

Hereinafter, the lime composition for disinfection sterilization of the present invention will be described in detail for each component.

First, the bactericidal lime composition of the present invention comprises hydrated lime (Ca (OH) ₂ ).

The calcined lime is an ingredient that serves to contain and store inorganic fungicides and various fungicides exhibiting strong alkalinity in the lime composition for disinfecting and disinfecting according to the present invention. Such slaked lime may be a solid such as Ca (OH) ₂ , Ca (OH) ₂ .MOH (M is an alkali metal, specifically Na, K, etc.), or a mixture thereof. When using slaked lime, not only calcium hydroxide but also dolomite lime mixed with calcium hydroxide and magnesium hydroxide (Mg (OH) ₂ ) may be used.

The calcined lime may be used in 20 to 95% by weight, preferably 70 to 80% by weight of the sterilizing lime composition of the present invention. At this time, when the amount of lime is less than 20% by weight, the content of other components that are more expensive than the amount of lime is relatively high, and thus the cost of the total sterilization disinfecting lime composition is increased and economic efficiency is lost. If the content of the other components such as the halogen-based or aldehyde-based fungicide used to enhance the bactericidal power of slaked lime and the cationic surfactant used to improve the dispersibility thereof is relatively small, the amount of slaked lime used may be reduced. It is not preferable because the sterilization power is lower than when adjusted to the inside.

Existing quicklime has a problem that handling is difficult because of the risk of fire when contacted with water, but the lime composition for sterilization and disinfection of the present invention does not directly include quicklime, there is no risk of fire.

Second, the disinfectant lime composition of the present invention includes a halogen-based bactericide.

The halogen-based fungicide is a component that serves to reinforce the sterilization power is applied in the lime composition for disinfection sterilization of the present invention.

Among the halogen fungicides are chlorine fungicides, bromine fungicides and iodine fungicides. In the present invention, it is preferable to use a chlorine fungicide and a bromine fungicide.

Chlorinated fungicides are characterized by a wide range of bactericidal properties, and are particularly good in weakly acidic and neutral areas. Chlorine-based fungicides also exhibit potent and rapid sterilization power at the outset, and are therefore necessary ingredients to be applied to the sterilizing disinfecting lime compositions of the present invention to see their initial effects. As such a chlorine fungicide, specifically, sodium hypochlorite, calcium hypochlorite, etc. can be used individually or in mixture.

Bromine-based fungicides are anti-irritant and have a wide range of bactericidal power and persistence, so they can be applied to lime disinfectant lime compositions for a long time. As such bromine-based fungicides, one or a mixture of two or more selected from sodium bromide, potassium bromide, calcium bromide, hydrobromic acid and the like can be used.

The halogen-based disinfectant may be used in an amount of 0.01 to 20% by weight, preferably 0.1 to 5% by weight, in the lime composition for disinfection of the present invention. More specifically, 0.01 to 10% by weight of chlorine fungicides and bromine-based fungicides are more preferably used in an amount of 0.01 to 10% by weight.

At this time, if the total amount of the halogen-based disinfectant is less than 0.01% by weight, there is a tendency that the effect of the initial sterilization power according to the use of the halogen-based disinfectant tends to be less. It is not preferable because it is not easy to react with the components constituting the lime composition for sterilization and disinfection, or the sterilization power is reduced, or the economical efficiency due to excessive use is not preferable.

For reference, since calcium bromide is expensive, it can also be prepared and used. As shown in the following scheme, calcium bromide can be obtained by adding lime to hydrobromic acid.

2HBr + Ca (OH) ₂ → CaBr ₂ + 2H ₂ O

On the other hand, among the halogen-based fungicides, iodine-based fungicides are chemically similar to chlorine and bromine, but weaker than the bactericidal powers, and also have a wide range of bactericidal powers and persistences, but sterilization powers are rapidly lowered under alkaline conditions, so that the purpose of the present invention is somewhat different. There is a group. Specific examples of such iodine-based fungicides include iodine, potassium iodine, hydroiodic acid and iodine monochloride.

Third, the bactericidal lime composition of the present invention comprises a cationic surfactant.

 The cationic surfactant is a component that exhibits a wide range of disinfection properties. The cationic surfactant has a long lasting bactericidal power in the entire pH range, and particularly has a high sterilizing power at a high temperature. Cationic surfactants exhibit non-corrosive and low irritation to the skin.

On the other hand, when anionic surfactants are used, they cause antagonism by reacting with strong alkaline components, which are characteristic of the lime composition for disinfecting and disinfecting, and thus exhibit a problem of deterioration in stability. It was not used because it is less sterilizing. In addition, when the anionic surfactant or the nonionic surfactant is used, the phenomenon of agglomeration of the slaked lime powder appears, which also has a problem that a uniform composition cannot be obtained.

On the other hand, the present invention uses a cationic surfactant, and by applying such a cationic surfactant to the sterilizing lime composition of the present invention can not react with the other components of the composition to cause antagonism to maintain stability, sterilization The effect of improving disinfection and persistence can be expected, and uniform mixing of the components constituting the sterilizing lime composition can be expected.

Such cationic surfactant may be a component also called a reverse soap, and specifically, a quaternary ammonium (NH ₄ ) -based surfactant may be used in the lime composition for disinfecting and disinfecting according to the present invention, and more specifically, benzalkonium chloride may be used. have. The quaternary ammonium-based surfactants are substituted with four hydrogen present in the organic molecular group, and particularly exhibit high bactericidal effect in the alkaline region. In addition, since the layer is formed on the slaked lime powder, bacteria from the outside can be effectively prevented.

Such cationic surfactant may comprise 0.1 to 20% by weight, preferably 1 to 10% by weight of the sterilizing lime composition of the present invention. At this time, if the content of the cationic surfactant is less than 0.1% by weight, sterilization and dispersing power is lowered, if the content exceeds 20% by weight prevents the sterilization of other components and economic efficiency is lost.

Fourth, the sterilizing lime composition of the present invention includes an aldehyde-based bactericide.

The aldehyde-based fungicides may be used alone or in combination, such as formaldehyde, glutaraldehyde. The aldehyde-based fungicide is a component that plays a role of a strong bactericidal action against selective bacteria such as avian influenza in the lime composition for disinfection sterilization of the present invention.

The aldehyde-based fungicide may include 0.1 to 20% by weight, preferably 1 to 5% by weight of the sterilizing lime composition of the present invention. At this time, if the content of the aldehyde-based disinfectant is less than 0.1% by weight, the sterilization power is lowered. If the content of the aldehyde-based disinfectant is more than 20% by weight, the sterilization action of other components is prevented and economic efficiency is lost.

Fifth, the sterilizing lime composition of the present invention contains a polyhydric alcohol-based wetting agent.

As the polyhydric alcohol wetting agent, a dihydric alcohol wetting agent, a trihydric alcohol wetting agent, or a mixture thereof may be used. As the dihydric alcohol wetting agent, ethylene glycol, propylene glycol, or the like may be specifically used. As the trihydric alcohol-based wetting agent, glycerin and the like can be used specifically.

The polyhydric alcohol wetting agent may comprise 1 to 20% by weight, preferably 3 to 10% by weight of the lime composition for sterilization of the present invention. At this time, if the content of the polyhydric alcohol-based wetting agent is less than 1% by weight, the wetting effect is insignificant, and if it is more than 20% by weight, the economical efficiency and the sterilizing power of other components are reduced.

The polyalcohol-based wetting agent is a component that combines various members in the lime composition for disinfecting and disinfecting of the present invention and plays a role of preventing lime powder from flying.

Hereinafter, a method for preparing the sterilizing lime composition of the present invention will be described in detail.

Method for producing a disinfectant lime composition of the present invention, calcined lime (Ca (OH) ₂ ) 20 to 95% by weight, cationic surfactant 0.1 to 20% by weight, halogen-based fungicide 0.01 to 20% by weight and aldehyde-based fungicide 0.1 After mixing by adding 20% by weight to 1 to 20% by weight of the polyhydric alcohol-based wetting agent is included.

The slaked lime may use slaked lime itself or slaked lime obtained by hydrated quicklime (CaO), clay lime or a mixture thereof at room temperature. The quicklime circuit is preferably in the range of 75 to 95% alkali quality in terms of the efficiency of the production of slaked lime.

The goto quicklime is obtained by calcining a mineral (dolomite) containing calcium and magnesium together, and is also referred to as light dolomite or goto quicklime (CaO.MgO).

The hydration may be carried out by adding water in the range of 20 to 70% by weight with respect to quicklime (CaO), lime lime (CaO.MgO) or a mixture thereof, and the amount of water is easy to work depending on the quality of quicklime and the like. Properly adjusted within. When water is added to the quicklime and stirred, the water is evaporated by an exothermic reaction, and some remain and react with the quicklime to form calcined lime. At this time, it is preferable to adjust the amount of water so that the amount of remaining water is not too high. Also, in order to improve workability and efficiency, it is also possible to react with water added to quicklime by mixing halogen type disinfectant, surfactant, aldehyde type disinfectant, polyalcoholic type wetting agent and so on. .

As a calcination circuit that can be used in the sterilizing lime composition of the present invention, a solid body of Ca (OH) ₂ or Ca (OH) ₂ · MOH (M is an alkali metal, specifically Na, K, etc.) may be used.

In order to use the Ca (OH) ₂ · MOH as a solid, a hydroxide of an alkali metal is mixed with water to be hydrated when quicklime or goto quicklime cause a hydration reaction.

Specific examples of the hydroxide of the alkali metal may include sodium hydroxide (NaOH) or potassium hydroxide (KOH). Sodium hydroxide and potassium hydroxide are commercially available in liquid or flake form, but are usually used in liquid form. That is, the hydroxide of the alkali metal is added in the form of an aqueous solution dissolved in water, it can be used by adjusting to a concentration of 1 to 30% by weight, preferably 3 to 10% by weight. If the concentration is less than the above range, there is no alkali effect, and if the concentration is higher than the above range, there is a problem in the process due to solidification at low temperature due to temperature-sensitive characteristics, so that it is adjusted to the above range if possible.

The quicklime (CaO), goto quicklime or a mixture thereof may be used in the 75 to 95% of the alkali grade, the size or shape of the particles may be used a variety, but for the convenience of the manufacturing process, if the size of the particles as possible fine It is good to use that.

In the quicklime, the cationic surfactant is added and mixed at the time of the slaking reaction, and the addition of the cationic surfactant makes the dispersion of the slaked lime more easily.

When the hydrated lime and the cationic surfactant are mixed, chlorine-based fungicides are added and mixed together. First, chlorine-based fungicides may be added and mixed, and then bromine-based fungicides may be added and mixed. Specifically, a part of the lime is made of calcium bromide by adding alone or mixed addition of bromine-based fungicides such as sodium bromide, potassium bromide, calcium bromide or hydrobromic acid.

After adding both a halogen type disinfectant and an aldehyde type disinfectant, a polyhydric alcohol type wetting agent is added. Due to the addition of the polyhydric alcohol-based wetting agent, problems such as flying lime powder can be solved.

The above-described disinfecting lime composition of the present invention can be used in a powdered or liquid form, and even when formulated in powder form, even when spraying the lime composition for disinfecting sterilization of the present invention, the disinfection persistence is improved. .

The sterilizing and disinfecting lime composition of the present invention can be used in a liquid form when sprayed in a large amount or when applied to a wall surface, and when used in a liquid form, the solid content is controlled to be in the range of 1 to 70% by weight. It is recommended to use.

In the case of the disinfecting lime composition of the present invention formulated in a liquid phase, it shows a high sterilizing power as compared with a conventional liquid composition, and has excellent sterilization durability.

That is, using a halogen-based disinfectant with calcined lime and strong disinfectant, a stable cationic surfactant with excellent disinfection and persistence, an aldehyde-based disinfectant excellent in disinfection persistence and viral bacteria, and used as a disinfectant for disinfection of the present invention. Lime composition is effective against a variety of germs, has the effect of having a long lasting and strong sterilizing power, is easy to use because the powder is not scattered, the manufacturing method has a simple advantage.

As described above, the sterilization lime composition of the present invention exhibits high sterilizing power against various germs such as viral bacteria, foot-and-mouth disease, avian influenza, etc., and thus can function as an excellent anti-microbial agent, and has good disinfection and sterilization. And it has excellent sustainability for disinfection, and has the advantage of use that can be applied by a simple method of spraying onto the target after mixing the components.

In addition, the lime composition for sterilization and disinfection of the present invention can be prepared by a simple method of mixing hydrated lime, halogen-based fungicide, cationic surfactant, aldehyde-based fungicide and polyalcoholic wetting agent.

Hereinafter, the present invention will be described in detail with reference to Examples, but the present invention is not limited by the following Examples.

Example  One

In this example, commercially available hydrated lime was used, and a cationic surfactant was used to prepare a powdery sterilizing lime composition.

Primary Stirring

CaO grade 1 kg of White Grade Materials Co., Ltd., industrial grade limestone with a particle size of 200% or more and a mesh size of 70% or more, is added to a stirring container, and 0.1g of calcium hypochlorite 70% granule is diluted in 50 g of water, and the mixture contains slaked lime. Stirring slowly into the container allowed calcium hypochlorite dissolved in water during stirring to adhere closely to the lime.

Secondary Stirring

5 g of a 48% solution of hydrobromic acid was added to 50 g of water in the first stirred calcined lime, followed by agitation with a slow addition to induce a reaction between the calcined lime and hydrobromic acid so that part of the calcined lime became calcium bromide.

3rd Stirring

Cationic surfactants (quaternary ammonium salt, benzylkonium chloride type disinfectant, CA50, Ilsim Fine Chemical) 5 g, 5 g of glutaraldehyde, 25 g of propylene glycol, 25 g of propylene glycol, and 100 g of water were mixed with the secondary stirred lime. Then slowly added while stirring. Cationic surfactants and glutaraldehyde were coated on hydrated lime to blend into powdery solids.

Comparative example  One

In this comparative example, commercially available hydrated lime was used, and a non-ionic surfactant was used to prepare a powdery sterilizing lime composition.

Primary Stirring

CaO grade 1 kg of White Grade Materials Co., Ltd., industrial grade limestone having a particle size of 200% or more with a mesh size of 70% or more, is added to a stirring container, and 0.1g of calcium hypochlorite 70% granule is diluted in 50g of water, and stirred with hydrated lime. By slowly pouring into the vessel, the calcium hypochlorite dissolved in the water during the stirring was brought into close contact with the lime.

Secondary Stirring

5 g of a 48% hydrobromic acid solution was added to 50 g of water in the first stirred calcined lime, and the mixture was slowly added with stirring to induce a reaction between the calcined lime and hydrobromic acid so that a part of the calcined lime became calcium bromide.

3rd Stirring

After mixing 5 g of nonionic surfactant disinfectant (Sarakill Central Biotech, whose main component is aminoethylglycine), 5 g of glutaraldehyde, 25 g of propylene glycol, 25 g of propylene glycol, and 100 g of water, slowly added Stirred. The hydrated lime was coated with a nonionic surfactant and glutaraldehyde to blend into a powdery solid.

Unlike in Example 1, when the nonionic surfactant is used, the powder particles are not dispersed well, and the lumps of lime appear small.

Comparative example  2

In this comparative example, commercially available hydrated lime was used, and an anionic surfactant was used to prepare a powdery sterilizing lime composition.

Primary Stirring

CaO grade 70% or more Grain size 200 mesh 85% or more 1 kg of industrial grade first lime is added to a stirring container, and 0.1 g of calcium hypochlorite 70% granule is diluted in 50 g of water, and the stirring container contains slaked lime. The mixture was slowly added to the mixture, and the calcium hypochlorite dissolved in the water during the stirring was brought into close contact with the lime.

Secondary Stirring

5 g of 48% hydrobromic acid solution was added to 50 g of water in the first stirred calcined lime, and the mixture was slowly added while stirring to induce a reaction between the calcined lime and hydrobromic acid so that a part of the calcined lime became calcium bromide.

3rd Stirring

5 g of anionic surfactant (liquid soap mono-emulsification), 5 g of glutaraldehyde 25% solution, 25 g of propylene glycol, and 100 g of water were added to the second stirred calcined lime, followed by stirring. The calcined lime was coated with an anionic surfactant and glutaraldehyde to blend into a powdery solid.

Unlike Example 1, when the anionic surfactant is used, the powder particles do not disperse well, and the lumps of lime appear small.

Example  2

In this example, a commercially available hydrated lime was used, and a cationic surfactant was used to prepare a liquid sterilization lime composition.

Primary Stirring

CaO grade 1 kg of industrial grade first lime, Co., Ltd., which has a particle size of 200% or more, 200 mesh or more, is added to a stirring container, and 5 g of chlorine disinfectant (calcium hypochlorite) 70% granule type is diluted with 50 g of water. The chlorine disinfectant dissolved in the water and hydrated lime were brought into close contact with the stirring container by slowly pouring into the stirring vessel containing the lime.

Secondary Stirring

10 g of hydrobromic acid (HBr) 48% solution in 50 g of water was diluted in 50 g of water, and the mixture was slowly added while stirring to induce a reaction between hydrated lime and hydrobromic acid, thereby making a part of the slaked lime become calcium bromide.

3rd Stirring

10 g of cationic surfactant (quaternary ammonium salt, benzalkonium chloride type disinfectant, CA50, ulsan fine chemical) was mixed with secondary stirred slaked lime, 10 g of glutaraldehyde 25% solution, 30 g of glycerin and 50 g of water. Then slowly added while stirring. The calcined lime was coated with a cationic surfactant, glutaraldehyde and glycerin to blend into a powdery solid. 3 kg of water was added to make it a liquid type, and the lime and water were used immediately or stirred when used to prevent separation.

Comparative example  3

In this comparative example, commercial lime was used, and a non-ionic surfactant was used to prepare a liquid sterilization lime composition.

Primary Stirring

CaO grade 1 kg of industrial grade first lime, Co., Ltd., whose particle size is more than 70% 200 mesh and 85% or more, is put in a stirring container, and 5 g of chlorine disinfectant (calcium hypochlorite) 70% granule type is diluted with 50 g of water. The chlorine disinfectant dissolved in water during the stirring and slaked lime were brought into close contact with the stirring vessel containing the slaked lime gradually.

Secondary Stirring

10 g of hydrobromic acid (HBr) 48% solution in 50 g of water was diluted in 50 g of water, and the mixture was slowly added and stirred to induce a reaction of hydrated lime and hydrobromic acid so that part of the slaked lime became calcium bromide.

3rd Stirring

10 g of a nonionic surfactant (Sarakill Central Biotech, the main component of aminoethylglycine), 10 g of glutaraldehyde 25% solution, 30 g of glycerin and 50 g of water were mixed and stirred slowly. . The hydrated lime was coated with a nonionic surfactant, glutaraldehyde and glycerin to blend into a powdery solid.

However, unlike Example 2, when the nonionic surfactant was used, the powder particles did not disperse well, and the lumps of lime appeared in small aggregates, and 3 kg of water was added thereto to form a liquid type, but the aggregated lime lumps Did not work out well.

Comparative example  4

In this comparative example, commercial lime was used, and an anionic surfactant was used to prepare a liquid sterilization lime composition.

Primary Stirring

CaO grade 1 kg of industrial grade limestone of Kwanggwang Material Co., Ltd. with a particle size of 200% or more than 200% is added to a stirring container. The chlorine disinfectant dissolved in water and hydrated lime were brought into close contact with the stirring container containing hydrated lime gradually.

Secondary Stirring

10 g of 48% solution of hydrobromic acid (HBr) in 50 g of water was diluted in the first stirred calcined lime, and then slowly added with stirring to induce a reaction between the calcined lime and hydrobromic acid so that part of the slaked lime became calcium bromide.

3rd Stirring

10 g of anionic surfactant (liquid soap mono-emulsification), 10 g of glutaraldehyde 25% solution, 30 g of glycerin, and 50 g of water were mixed with the second stirred calcined lime, and the mixture was slowly added while stirring. The hydrated lime was coated with anionic surfactants, glutaraldehyde and glycerin to blend into a powdery solid.

However, unlike Example 2, when the anionic surfactant is used, the powder particles do not disperse well and lime aggregates appear to be agglomerated in small amounts, and 3 kg of water is added to make the liquid type. It didn't work out well.

Example  3

In the present embodiment, using a hydrated lime prepared using quicklime, and using a cationic surfactant to prepare a powdery sterilization lime composition.

Primary Stirring

1 kg of powdered quicklime with a particle size of 200% or more with a mesh size of 200% or more with a CaO content is added to a stirring container, and 0.1g of a 70% granule type of chlorine disinfectant (calcium hypochlorite) is added to 200g of water and diluted with a container containing powdered lime. Was slowly added. During the stirring, quicklime reacts with water to generate heat, and a part of the water evaporates, and the remaining amount of water reacts with quicklime (CaO + H ₂ O → Ca (OH) ₂ ) to form hydrated lime. At this time, chlorine disinfectant dissolved in water In close contact with slaked lime.

Secondary Stirring

5 g of a 48% solution of hydrobromic acid was added to 200 g of water and mixed slowly with the first stirred calcined lime to induce a reaction between the calcined lime and hydrobromic acid so that some of the slaked lime became calcium bromide.

3rd Stirring

5 g of a cationic surfactant (quaternary ammonium salt, CA50, Ilsim Fine Chemical), 5 g of glutaraldehyde 25% solution, 25 g of propylene glycol, and 150 g of water were added to the second stirred calcined lime, followed by stirring. .

The calcined lime was coated with a cationic surfactant, glutaraldehyde and propylene glycol together to blend into a powdery solid.

Example  4

In the present embodiment, using a hydrated lime prepared using quicklime, and using a cationic surfactant to prepare a powdery sterilization lime composition.

Primary Stirring

CaO grade 50% MgO grade 40% or more Grain size 200 mesh 1kg Goto lime is added to the stirring vessel, and 250 g of water is diluted by adding 5 g of chlorine disinfectant (calcium hypochlorite) 70% granule type The stirring vessel was slowly added while stirring. During stirring, Goto quicklime reacted with water to generate heat, and a part of the water evaporated. The remaining water reacted with Goto Quicklime to form Goto-Stone, and the chlorine disinfectant dissolved in the water closely adhered to Goto-Stone.

Secondary Stirring

10 g of hydrobromic acid (HBr) 48% solution was added to 200 g of water in the first stirred calcined lime, followed by dilution. The mixture was slowly added and stirred to induce a reaction between the slaked lime and hydrobromic acid so that a part of the slaked lime became calcium bromide.

3rd Stirring

10 g of a cationic surfactant (quaternary ammonium salt, CA50, one core fine chemistry), 10 g of glutaraldehyde 25% solution, 30 g of glycerin and 100 g of water were mixed with the second stirred calcined lime and then slowly added while stirring. Goto lime was coated with a cationic surfactant, glutaraldehyde, and glycerin to blend into a powdery solid.

Example  5

In the present embodiment, using a hydrated lime prepared using quicklime, and using a cationic surfactant to prepare a powdery sterilization lime composition.

Primary Stirring

CaO grade 45% MgO grade 35% or more Particle size 100 mesh 98% Goto quick lime 1 kg is added to the stirring vessel, 200 g of water and sodium hypochlorite 12% solution is diluted with dilution, and then slowly added to goto quick lime and stirred It was. During stirring, the Goto Quicklime reacted with water to generate heat, and a part of the water evaporated, and the remaining amount of water reacted with Goto Quicklime to form Goto-Stone. At this time, sodium hypochlorite dissolved in the water adhered to Goto-Stone.

Secondary Stirring

20 g of hydrobromic acid 48% solution and 250 g of water were diluted in the first stirred goto-lime lime, and the mixture was slowly added while stirring. Part of the goto-lime and the hydrobromic acid reacted to form part of the calcium-bromide.

3rd Stirring

10 g of a cationic surfactant (quaternary ammonium salt, CA50, Ilsim Fine Chemical), 10 g of formalin (HCHO) 35% solution, 30 g of glycerin, and 150 g of water were mixed with the second stirred calcined lime, followed by stirring. . Goto lime is coated with a cationic surfactant, formalin and glycerin to blend into a powdery solid.

Example  6

In the present embodiment, using a hydrated lime prepared using quicklime, and using a cationic surfactant to prepare a powdery sterilization lime composition.

Primary Stirring

1 kg of quicklime having a CaO grade of 85% or less in particle size of 1 mm or less was added to a stirring container, and 5 g of 12% sodium hypochlorite solution and 10 g of potassium bromide were diluted in 300 g of water, and then slowly added to the quicklime and stirred. During stirring, quicklime reacts with water (CaO + H ₂ O → Ca (OH) ₂ ) to generate heat, while a part of the water evaporates, and the remaining amount of water reacts with quicklime to form hydrated lime, and sodium hypochlorite dissolved in water Potassium bromide was in close contact with the lime.

Secondary Stirring

20 g of cationic surfactant (quaternary ammonium salt, CA50, Ilsim Fine Chemical), 30 g of formalin (HCHO) 35% solution, 50 g of glycerin and 300 g of water were mixed with the first stirred calcined lime, and then slowly added while stirring. . Cationic surfactants, formalin and glycerin were coated on hydrated lime to blend into powdery solids.

Example  7

In the present embodiment, using a hydrated lime prepared using quicklime, and using a cationic surfactant to prepare a powdery sterilization lime composition.

Primary Stirring

CaO-grade 45% MgO-grade 35% Particle size 1 kg Goto quicklime with 2 mm or less is added to the stirring vessel, and 300 g of water is diluted with 10 g of sodium hypochlorite 12% solution and 10 g of sodium bromide, and then slowly added to Goto lime. And stirred. During stirring, goto quick lime reacts with water (CaO + H ₂ O → Ca (OH) ₂ ) to generate heat, and a part of the water evaporates, and the remaining amount of water reacts with goto quick lime to form goto lime, which is dissolved in water. Sodium chlorate and sodium bromide were in close contact with hydrated lime.

Secondary Stirring

50 g of cationic surfactant (quaternary ammonium salt), 50 g of glutaraldehyde, 30 g of glycerine, and 250 g of water were added to the first stirred goto lime, and the mixture was slowly added while stirring. The calcined lime was coated with a cationic surfactant, glutaraldehyde and glycerin to blend into a powdery solid.

Example  8

In this embodiment, using the lime prepared by using quicklime, using a cationic surfactant to prepare a liquid sterilization lime composition.

Primary Stirring

CaO grade 50% MgO grade 40% or more Grain size 200 mesh 90 kg or more 1 kg of Goto Quicklime is added to the stirring vessel, 250 g of water chlorine disinfectant (calcium hypochlorite) 70% granule type 5 g, chlorine disinfectant (sodium hypochlorite) 5 g and 10 g of cationic surfactant (quaternary ammonium salt, CA50, Ilsim Fine Chemical) were added and diluted. The mixture was slowly added to a stirring container containing high soil lime and stirred. During stirring, goto quicklime reacts with water (CaO + H ₂ O → Ca (OH) ₂ ) to generate heat, and a part of the water evaporates, and the remaining amount of water reacts with gotolime to form goto-lime, which is dissolved in water. The disinfectant adhered to Goto Lime. Due to the cationic surfactant, the mixer was well-balanced and the particles were evenly distributed.

Secondary Stirring

10 g of 48% solution of hydrobromic acid (HBr) in 150 g of water was diluted in 150 g of water, and the mixture was slowly added with stirring to induce reaction of goto-lime lime and hydrobromic acid, thereby making some of the slaked lime become calcium bromide. .

3rd Stirring

5 g of a cationic surfactant (quaternary ammonium salt, CA50, Ilsim Fine Chemical), 10 g of glutaraldehyde 25% solution, 100 g of glycerin and 150 g of water were added to the second stirred goto lime, and then slowly added while stirring. It was. Goto lime was coated with a cationic surfactant, glutaraldehyde, and glycerin to blend into a powdery solid. 1 kg of water was put here to prepare a liquid-like plaster on the wall.

Example  9

In this embodiment, using the lime prepared by using quicklime, using a cationic surfactant to prepare a liquid sterilization lime composition.

Primary Stirring

1 kg of quicklime with a CaO grade of 90% particle size or less than 200 mesh was added to a stirring container, and 50 g of 12% sodium hypochlorite solution and 30 g of potassium bromide were diluted in 350 g of water, and then slowly added to the quicklime and stirred. During stirring, quicklime reacts with water (CaO + H ₂ O → Ca (OH) ₂ ) to generate heat, while a part of the water evaporates, and the remaining amount of water reacts with quicklime to form hydrated lime, at which time sodium hypochlorite dissolved in water And potassium bromide were in close contact with the lime.

Secondary Stirring

30 g of cationic surfactants (quaternary ammonium salt, CA50, Ilsim Fine Chemical), 5 g of formalin (HCHO) 35% solution, 10 g of glutaraldehyde 25% solution, 150 g of glycerin and 200 g of water were added to the first stirred calcined lime. After mixing, the solution was slowly added and stirred. The calcined lime was coated with a cationic surfactant, formalin, glutaraldehyde and glycerin to blend into a powdery solid. 1 kg of water was put here to prepare a liquid-like plaster on the wall.

Example  10

In this embodiment, using the commercially prepared hydrated lime and quicklime lime, using a potassium hydroxide and a cationic surfactant to prepare a liquid sterilization lime composition.

Primary Stirring

200g CaO grade 200% or more 200 mesh 85% or more of industrial grade slaked lime 500g or more CaO grade 40% or more MgO grade 35% or more 100g 98% or more Goto quicklime with a particle size of 100% 98% 20 g of sodium hypochlorite 12% solution, 20 g of cationic surfactants (quaternary ammonium salt, CA50, one core fine chemical), and 20 g of potassium hydroxide (KOH) 45% solution were diluted and mixed with hydrated lime and limestone. It was slowly added to and stirred. During stirring, the Goto Quicklime reacts with water to generate heat, and a part of the water evaporates, and the remaining amount of water reacts with Goto Quicklime to form Goto-Stone. It adhered to slaked lime mixed with slaked lime. Exothermic reactions dropped significantly because of lime, and stirring was good due to the dispersibility of the surfactant.

Secondary Stirring

By diluting 20 g of hydrobromic acid 48% solution and 100 g of water in the first stirred calcined lime and slowly stirring, the reaction between the slaked lime and hydrobromic acid was induced to make a part of the slaked lime become calcium bromide.

3rd Stirring

10 g of cationic surfactant, 50 g of formalin (HCHO) 35% solution, glycerin 30 g, and 50 g of water were added to the second stirred calcined lime, and the mixture was slowly added while stirring. Cationic surfactants, formalin and glycerin were coated on hydrated lime to blend into powdery solids. 1 kg of water was put here to prepare a liquid-like plaster on the wall.

Example  11

In this embodiment, using the lime prepared by using quicklime, using a cationic surfactant to prepare a liquid sterilization lime composition.

Primary Stirring

300 g of building lime with a particle size of 88 μm and 15% with a particle size of more than 55% of MgO 5% or more of CaO grade and 700 g of high earth lime, which has a particle size of 200% or more with a mesh size of more than 35% of 45% MgO quality, is added to a stirring vessel, and 200 g of water Dilute by adding 20 g of chlorine disinfectant (calcium hypochlorite) 70% granule type and 20 g of cationic surfactant (quaternary ammonium salt, CA50, Ilsim Fine Chemical) and slowly put into a stirring container containing Goto lime and industrial lime. It was. During the stirring, the Goto Quicklime reacts with the water to generate heat, and a part of the water evaporates, and the remaining amount of water reacts with the Goto Quicklime to form Goto-Stone. At this time, the chlorine disinfectant and the cationic surfactant dissolved in the water closely adhere to the Goto-Stone. I was.

Secondary Stirring

10 g of potassium bromide and 10 g of calcium bromide were added to 150 g of water in the first stirred calcined lime, and the mixture was slowly added while stirring. Goto-lime, potassium bromide and calcium bromide were in close contact.

3rd Stirring

10 g of cationic surfactant, 10 g of glutaraldehyde, 30 g of glycerin, and 100 g of water were added to the second stirred goto-lime lime, and the mixture was slowly added while stirring. Goto lime is coated with a cationic surfactant, glutaraldehyde and glycerin to blend into a powdery solid. 1 kg of water was put here to prepare a liquid-like plaster on the wall.

Example  12

In the present embodiment, using a quicklime lime prepared using quicklime, using a sodium hydroxide and a cationic surfactant to prepare a liquid sterilization lime composition.

Primary Stirring

500 g of powdered quicklime with a particle size of 200% or more with a mesh size of 200% or more with a CaO content of more than 80% and 500 g of high-grade lime with a MgO grade of more than 45% with a CaO grade of 500% are added to a stirring vessel. 5 g of a surfactant (quaternary ammonium salt, CA50, Ilsim Fine Chemical) and 5 g of a 70% granule of chlorine disinfectant (calcium hypochlorite) were diluted and slowly added to a stirring container containing quicklime. During the stirring, quicklime reacts with water to generate heat, and a part of the water evaporates. The remaining water reacts with quicklime to become hydrated lime. At this time, chlorine disinfectant and sodium hydroxide dissolved in water adhere to the hydrated lime.

Secondary Stirring

10 g of potassium bromide was added to 200 g of water and mixed with the first stirred calcined lime, and the mixture was stirred slowly to bring the calcined lime and potassium bromide into close contact.

3rd Stirring

10 g of a cationic surfactant (quaternary ammonium salt), 10 g of glutaraldehyde, 100 g of glycerin, and 150 g of water were mixed in the second stirred calcined lime and slowly added while stirring. Cationic surfactants and glutaraldehyde were coated on hydrated lime to blend into powdery solids. 1 kg of water was put here to prepare a liquid-like plaster on the wall.

Experimental Example  1: of powder Throwing  compare

As a result of comparing the powder of the sterilizing and disinfecting lime composition of the present invention prepared by Examples 1 and 3 to 7 with the naked eye after spraying the conventional powdered quick lime, It was confirmed that the powder of the sterilizing and disinfecting lime composition of the present invention prepared by ˜7 was not blown, but the existing powdery quicklime was blown.

Experimental Example  2: Comparison of sterilization power of each representative ingredient

1) Chlorine Sterilizer

Hypochlorous acid (HOCl) used as a chlorine disinfectant includes liquid sodium hypochlorite and solid calcium hypochlorite. It is advantageous in that it has a bactericidal effect against almost all microorganisms, is inexpensive and has a rapid bactericidal effect. The chlorine disinfectant has a disinfecting effect depending on the amount of hypochlorous acid that is not free. As the pH of the solution increases, hypochlorite is released as ions of hypochlorite (OCT), decreasing the disinfecting effect.

① Sodium hypochlorite

After diluting 5% solution of sodium hypochlorite (NaClO) to the range of 200 to 300 times, disinfecting medical equipment and intensive care unit are applied for disinfection, and 5% solution of sodium hypochlorite (NaClO) to 200 to 800 times Dilute and use for wound disinfection and bladder cleaning.

The 4-6% solution of Harasol, a Yuhan Corporation product, is diluted in the range of 200 to 300 times to be used for livestock, machinery and equipment, and hatching disinfection.It is diluted to the range of 300 to 500 times to be used for sterilizing the body. Diluted to 2 times range for use in drinking water sterilization, Diluted to 50 to 100 times for use in nipple soaking disinfection, Diluted to 20 to 30 times for use in sterilization of perilla and perilla, perilla and perilla Known.

Also, in the absence of organic substances, ordinary bacteria are killed at less than 1 ppm, mycoplasma at 25 ppm in a few seconds, and at concentrations of 100 ppm, 99.9% of Bacullus subtilis spores are killed within 5 minutes. It is known to kill fungi in one hour at a concentration of 100 ppm, and to kill mycobacterium tuberculosis at about 1,000 ppm.

On the other hand, the free chlorine content of 4% sodium hypochlorite is 40,000 ppm, so when diluted 1:40, it becomes 1,000 ppm.

② Calcium hypochlorite 70% granule

A component used as a disinfectant in drinking water. The aqueous solution of calcium hypochlorite (chlorocalc), a statutory antiseptic, is a 5% aqueous solution of calcium hypochlorite.

2) cationic surfactant

① Quaternary ammonium salt

In general, the bactericidal effect is great for gram-positive bacteria, and the bactericidal activity is low for gram-negative bacteria. It has no smell and color, is harmless to the skin, and has low toxicity, so it is widely used for low-level disinfection in medical environment that does not require sterilization. Therefore, it is known that it is mainly used for cleaning hospital rooms, corridor floors, furniture surfaces, and walls. However, in the presence of organic matter, since the sterilizing power is lowered, it is unsuitable for disinfecting the feces of the patient. Used for hand disinfection and wiped with 100-200 times diluted solution for indoor disinfection and odor elimination.

3) Aldehyde disinfectant

① Glutalaldehyde

Originally, glutaraldehyde is an acidic solution and has very little disinfection effect. However, by adding a base to increase the pH to 7.5 ~ 8.5 is activated, it becomes a powerful disinfectant to kill bacterial spores, once activated solution is known to be effective for 14 to 28 days.

In general, a 2% glutaraldehyde solution that raises the pH from 7.5 to 8.5 by adding sodium bicarbonate kills ordinary bacteria in 2 minutes, tuberculosis, fungi and viruses in 10 minutes, and Bacullus and Clostridium. Spores of Clostridium spp. Are killed within 3 hours, and spores of Clostridium difficile spp. Are known to die within 20 minutes.

② formaldehyde

Formaldehyde is a disinfectant that can also be used as a sterilant. Formaldehyde is solid and 37% aqueous solution in water is formalin. Because of its high carcinogenicity, do not work for more than 8 hours at 0.75 ppm.

It is apparent that the lime composition for disinfecting and disinfecting the present invention containing the above components will show a higher bactericidal power than the case where only conventional lime is used. It is obvious that it will work.

Claims (17)

Slaked lime (Ca (OH) ₂ ) 20 to 95% by weight, halogenated fungicide 0.01 to 20% by weight, cationic surfactant 0.1 to 20% by weight, aldehyde based fungicide 0.1 to 20% by weight and polyalcoholic wetting agent 1 to 20% by weight Sterilizing lime composition, characterized in that comprises a%. The method according to claim 1, The slaked lime is _{Ca (OH) 2, Ca (} OH) 2 · Mg (OH) 2, Ca (OH) ₂ · MOH (M is an alkali metal) solid or a mixture thereof, lime composition for disinfection. The method according to claim 1, The halogen-based bactericidal agent is a chlorine-based bactericide, bromine-based bactericide or a mixture thereof. The method according to claim 3, The chlorine fungicide is a disinfectant lime composition, characterized in that sodium hypochlorite, calcium hypochlorite, or a mixture thereof. The method according to claim 3, The bromine-based bactericide is a lime composition for disinfecting sterilization, characterized in that at least one selected from sodium bromide, potassium bromide, calcium bromide and a mixture of hydrobromic acid. The method according to claim 1, The cationic surfactant is a sterilizing lime composition, characterized in that the quaternary ammonium surfactant. The method according to claim 6, The quaternary ammonium surfactant is a lime composition for disinfecting sterilization, characterized in that the benzalkonium chloride. The method according to claim 1, The aldehyde-based disinfectant powder composition for sterilization, characterized in that the formaldehyde, glutaraldehyde or a mixture thereof. The method according to claim 1, The polyhydric alcohol-based wetting agent lime disinfectant disinfectant composition, characterized in that one or two or more selected from ethylene glycol, propylene glycol, and glycerin. Calcined lime (Ca (OH) ₂ ) 20 to 95% by weight, cationic surfactant 0.1 to 20% by weight, halogen-based fungicide 0.01 to 20% by weight and aldehyde-based fungicide 0.1 to 20% by weight of polyhydric alcohol Method for producing a sterilizing lime composition, characterized in that it comprises the step of mixing by adding 1 to 20% by weight wetting agent. The method according to claim 10, The addition of the halogen-based fungicide is a method for producing a disinfectant lime composition, characterized in that the chlorine-based sterilizer and bromine-based sterilizer sequentially added. The method according to claim 10, The calcined lime is a method of producing a lime composition for disinfecting sterilization, characterized in that obtained by hydrating quicklime (CaO), lime lime or a mixture thereof at room temperature. The method according to claim 12, The quicklime (CaO), goto quicklime or a mixture thereof is a method of producing a lime composition for disinfecting sterilization, characterized in that the alkaline grade of 75 to 95%. The method according to claim 12, The hydration is a method for producing a disinfecting lime composition, characterized in that the addition of 20 to 70% by weight of water based on quicklime (CaO), lime lime or a mixture thereof. The method according to claim 12, A method for producing a sterilizing lime composition, characterized in that an aqueous solution of an alkali metal hydroxide is added during hydration. The method of claim 15, The aqueous solution of the alkali metal hydroxide is a method for producing a sterilizing lime composition, characterized in that the concentration range of 1 to 20% by weight. The method according to claim 16, The alkali metal hydroxide is a method for producing a sterilizing lime composition, characterized in that sodium hydroxide or potassium hydroxide.