阅读说明：本技术 一种绿色可带体消毒的消毒剂 (Green disinfectant capable of disinfecting by belt ) 是由 李跃伟 李磊 周剑平 于 2021-02-23 设计创作，主要内容包括：本发明公开一种绿色可带体消毒的消毒剂,涉及消毒剂技术领域。本发明公开的绿色可带体消毒的消毒剂由以下质量百分比的原料组成：过硫酸氢钾48～56％、无水柠檬酸4.5～5.6％、氨基磺酸4.3～5.2％、质量分数为95％的烷基苯磺酸钠13.5～16.1％、食盐1.3～1.8％、六偏磷酸钠15.4～18.7％、稳定复合剂0～7.2％、抗结剂1～2.5％和柠檬香0.3～0.8％,并将原料混合均匀后制得的。本发明提供的绿色可带体消毒的消毒剂消毒效果好,不易结块可长期稳定的保存,水溶性好,绿色环保,不会对环境造成腐蚀,对细菌、病毒、真菌、支原体等病原微生物具有高效的杀灭作用,是一种广谱、高效、可靠、持久、安全的环境友好型消毒剂。(The invention discloses a green disinfectant capable of disinfecting by a belt body, and relates to the technical field of disinfectants. The invention discloses a green disinfectant capable of disinfecting a belt body, which comprises the following raw materials in percentage by mass: 48-56% of potassium hydrogen persulfate, 4.5-5.6% of anhydrous citric acid, 4.3-5.2% of sulfamic acid, 13.5-16.1% of sodium alkyl benzene sulfonate with the mass fraction of 95%, 1.3-1.8% of salt, 15.4-18.7% of sodium hexametaphosphate, 0-7.2% of stabilizing complexing agent, 1-2.5% of anti-caking agent and 0.3-0.8% of lemon fragrance, and the raw materials are uniformly mixed to obtain the anti-caking agent. The green disinfectant capable of disinfecting by using a belt provided by the invention has the advantages of good disinfection effect, difficulty in caking, long-term stable storage, good water solubility, environmental friendliness, no corrosion to the environment, and high-efficiency killing effect on pathogenic microorganisms such as bacteria, viruses, fungi, mycoplasma and the like, and is a broad-spectrum, high-efficiency, reliable, lasting and safe environment-friendly disinfectant.)

1. The green disinfectant capable of disinfecting by using the belt body is characterized by comprising the following raw materials in percentage by mass: 48-56% of potassium hydrogen persulfate, 4.5-5.6% of anhydrous citric acid, 4.3-5.2% of sulfamic acid, 13.5-16.1% of sodium alkyl benzene sulfonate with the mass fraction of 95%, 1.3-1.8% of salt, 15.4-18.7% of sodium hexametaphosphate, 0-7.2% of stabilizing complexing agent, 1-2.5% of anti-caking agent and 0.3-0.8% of lemon fragrance.

2. The disinfectant for disinfecting green strips as claimed in claim 1, wherein the disinfectant is prepared from the following raw materials in percentage by mass: 51.3 percent of potassium hydrogen persulfate, 5.0 percent of anhydrous citric acid, 4.7 percent of sulfamic acid, 14.4 percent of sodium alkyl benzene sulfonate with the mass fraction of 95 percent, 1.5 percent of salt, 16.5 percent of sodium hexametaphosphate, 4.4 percent of stable complexing agent, 1.6 percent of anticaking agent and 0.6 percent of lemon flavor.

3. The disinfectant as recited in claim 1 or 2, wherein said stabilizing compound is compounded from triazolone and ethylenediaminetetraacetic acid.

4. The green disinfectant capable of disinfecting by tapes according to claim 3, wherein the mass ratio of triazolone to ethylenediamine tetraacetic acid is (2.6-6): 1.

5. the disinfectant as recited in claim 1 or 2, wherein said anticaking agent is HPMA GaP complex, and the preparation method comprises: adding dicalcium phosphate into 50% ammonium citrate solution in parts by weight, heating to 60 ℃, stirring until the dicalcium phosphate is completely dissolved, then adding HPMA, heating to 100 ℃, stirring for 1 hour, carrying out suction filtration, washing with deionized water for three times, and drying to obtain the HPMA-GaP compound.

6. The disinfectant as claimed in claim 5, wherein the mass ratio of dicalcium phosphate to HMPA is (1.5-4): 1, the mass ratio of the dicalcium phosphate to 50% ammonium citrate solution in parts by mass is 1: (3-5).

7. A method for preparing a disinfectant as claimed in claim 1 or 2, which comprises the following steps:

(1) weighing the raw materials according to the weight percentage of the raw materials of the disinfectant, and ensuring that the temperature of a preparation environment is 18-26 ℃ and the humidity is 35-55%;

(2) placing anhydrous citric acid, sulfamic acid, sodium alkyl benzene sulfonate with the mass fraction of 95% and hexametaphosphoric acid in a mixer, and stirring until the anhydrous citric acid, the sulfamic acid, the sodium alkyl benzene sulfonate with the mass fraction of 95% and the hexametaphosphoric acid are fully and uniformly mixed to obtain a pretreated substance; and (2) taking half of the mass of the potassium hydrogen persulfate weighed in the step (1), adding the pretreatment substance, the salt, the anticaking agent, the stabilizing complexing agent and the lemon fragrance, uniformly mixing, finally adding the remaining half of the potassium hydrogen persulfate, and stirring for 45min to obtain the disinfectant.

8. Use of a green beltable disinfectant as claimed in claim 1, wherein the disinfectant is mixed with water in a ratio of 1: (100-.

Technical Field

The invention belongs to the technical field of disinfectants, and particularly relates to a green disinfectant capable of disinfecting a belt body.

Background

With the rapid development of the breeding industry, the traditional family breeding mode has been replaced by an intensive and large-scale breeding mode, but with the continuous increase of the breeding density, the spreading risk of infectious diseases is gradually increased. Particularly since 8 months in 2018, the occurrence of African swine fever causes devastating attack to the pig industry in China, the African swine fever is an acute, hot and highly contagious infectious disease caused by African swine fever virus, the mortality rate reaches 100%, the disease has a certain incubation period, once the disease occurs, the large-area disease of the whole pig farm is caused and the death is caused, but the occurrence of the African swine fever also enhances the biological safety consciousness of breeding personnel, so the sales of various veterinary disinfectants is greatly increased since 2019.

At present, the disinfectants used for disinfecting the surfaces of the environment and objects mainly comprise composite disinfectants containing chlorine, quaternary ammonium salts, peroxides and phenolic aldehyde. The chlorine-containing disinfectant is prepared by hydrolyzing sodium hypochlorite serving as an active ingredient into hypochlorous acid, further decomposing the hypochlorous acid into chloride ions and nascent oxygen, oxidizing proteins on the surfaces of bacteria and viruses by utilizing the strong oxidizing property of the nascent oxygen, and denaturing structural proteins to inactivate the bacteria or the viruses, but the effect of the chlorine-containing disinfectant is influenced by the existence of organic matters, the chlorine-containing disinfectant is easily influenced by a reducing agent and the environment, the stability is poor, and the chlorine-containing disinfectant has irritation to respiratory tracts. The quaternary ammonium salt disinfectant has antibacterial activity by carrying positive charges, and the bacteria cell surface carries negative charges, and the quaternary ammonium salt disinfectant and the bacteria cell surface are adsorbed together to destroy protein and deform the protein, so that a cell membrane is destroyed to achieve the bactericidal effect. The peroxide disinfectant is a high-efficiency strong oxidation disinfectant, such as peracetic acid, hydrogen peroxide and the like, has a good disinfection effect, but has strong corrosivity, large skin irritation and poor stability. The phenolic aldehyde disinfectant is an efficient disinfectant, but has the advantages of small adaptation range, high toxicity, difficult decomposition and easy environmental pollution after use.

The potassium hydrogen persulfate composite disinfectant in the prior art is mainly compounded with a mixture disinfectant formed by citric acid, malic acid, phosphate, sodium dodecyl benzene sulfonate, sodium chloride and the like, has strong acidity and strong oxidizing property, has strong corrosivity, can cause serious damage to a disinfection object, and can corrode buildings and metal appliances after long-term use; the stability of the diluent prepared by the disinfectant is greatly reduced under the condition of not using up, the disinfection active ingredients are unstable, the storage time is short, and the disinfectant can not be left for the next effective use; when the disinfectant is prepared into powder or tablets, part of components are easy to agglomerate and are unevenly dispersed, so that the diluted disinfectant components are uneven, and the disinfection effect is greatly reduced.

Disclosure of Invention

The invention aims to provide a green disinfectant capable of disinfecting by a belt, which has the advantages of good disinfecting effect, difficult caking, long-term stable storage, good water solubility, environmental protection, no corrosion to the environment, high-efficiency killing effect on pathogenic microorganisms such as bacteria, viruses, fungi, mycoplasma and the like, and is a broad-spectrum, high-efficiency, reliable, durable and safe environment-friendly disinfectant.

In order to realize the purpose of the invention, the invention provides a green disinfectant capable of disinfecting a belt body, which is prepared from the following raw materials in percentage by mass: 48-56% of potassium hydrogen persulfate, 4.5-5.6% of anhydrous citric acid, 4.3-5.2% of sulfamic acid, 13.5-16.1% of sodium alkyl benzene sulfonate with the mass fraction of 95%, 1.3-1.8% of salt, 15.4-18.7% of sodium hexametaphosphate, 0-7.2% of stabilizing complexing agent, 1-2.5% of anti-caking agent and 0.3-0.8% of lemon fragrance.

Further, the disinfectant is prepared from the following raw materials in percentage by mass: 51.3 percent of potassium hydrogen persulfate, 5.0 percent of anhydrous citric acid, 4.7 percent of sulfamic acid, 14.4 percent of sodium alkyl benzene sulfonate with the mass fraction of 95 percent, 1.5 percent of salt, 16.5 percent of sodium hexametaphosphate, 4.4 percent of stable complexing agent, 1.6 percent of anticaking agent and 0.6 percent of lemon flavor.

Furthermore, the stabilizing complexing agent is compounded by triazolone and ethylene diamine tetraacetic acid.

Further, the mass ratio of the triazolone to the ethylene diamine tetraacetic acid is (2.6-6): 1.

further, the anticaking agent is an HPMA-GaP compound, and the preparation method comprises the following steps: adding dicalcium phosphate into 50% ammonium citrate solution in parts by weight, heating to 60 ℃, stirring until the dicalcium phosphate is completely dissolved, then adding HPMA, heating to 100 ℃, stirring for 1 hour, carrying out suction filtration, washing with deionized water for three times, and drying to obtain the HPMA-GaP compound.

Further, the mass ratio of the dicalcium phosphate to the HMPA is (1.5-4): 1, the mass ratio of the dicalcium phosphate to 50% ammonium citrate solution in parts by mass is 1: (3-5).

A preparation method of a green disinfectant capable of disinfecting by a belt body specifically comprises the following steps:

(1) weighing the raw materials according to the weight percentage of the raw materials of the disinfectant, and ensuring that the temperature of a preparation environment is 18-26 ℃ and the humidity is 35-55%;

(2) placing anhydrous citric acid, sulfamic acid, sodium alkyl benzene sulfonate with the mass fraction of 95% and hexametaphosphoric acid in a mixer, and stirring until the anhydrous citric acid, the sulfamic acid, the sodium alkyl benzene sulfonate with the mass fraction of 95% and the hexametaphosphoric acid are fully and uniformly mixed to obtain a pretreated substance; and (2) taking half of the mass of the potassium hydrogen persulfate weighed in the step (1), adding the pretreatment substance, the salt, the anticaking agent, the stabilizing complexing agent and the lemon fragrance, uniformly mixing, finally adding the remaining half of the potassium hydrogen persulfate, and stirring for 45min to obtain the disinfectant.

The application of the disinfectant for green strip body disinfection comprises the following steps of mixing the disinfectant with water in a ratio of 1: (100-.

The potassium hydrogen persulfate composite disinfectant prepared by the invention can continuously generate hypochlorous acid and nascent oxygen through a chain reaction in water, oxidize and chlorinate pathogens, interfere the synthesis of DNA and RNA of the pathogens, solidify and denature proteins, further interfere the activity of an enzyme system of the pathogens, influence the metabolism of the enzymes, increase the permeability of cell membranes, cause the loss of enzyme and nutrient substances, further dissolve and crack the pathogens, and further kill pathogenic microorganisms. The potassium hydrogen persulfate composite disinfectant is peroxide, also has strong oxidizing power, can kill microorganisms, can directly react with amino, carboxyl and sulfydryl in thalli or enzyme protein through oxidation reaction to damage cell structures or inhibit metabolic functions to cause bacterial death, or accelerates the metabolism of bacteria through redox reaction to damage the growth process of the bacteria to kill the bacteria.

The invention achieves the following beneficial effects:

1. chain reaction, continuous sterilization. The salt is oxidized by potassium hydrogen persulfate, the generated chlorine is not released but interacts with sulfamic acid to form an intermediate compound and is then decomposed to generate hypochlorous acid, and meanwhile, the reaction is carried out circularly, and after the chlorine is released from the sulfamic acid, more sodium chloride molecules are formed, so that continuous raw materials are provided for the circulation, the continuous disinfection is realized, and the excellent disinfection effect is achieved.

2. Unique action mechanism. In the chain type reaction process of the potassium hydrogen persulfate, the effect of acid preparation can be achieved by generating hydrogen ions; the intermediate product chlorine and hypochlorous acid can play a role of a halogen disinfectant; the released oxygen free radicals can play a role of peroxide disinfectants, namely, the disinfectant has three antivirus mechanisms, and multiple independent experiments prove that the disinfectant is effective to all 18 virus families (such as swine vesicular disease virus, foot and mouth disease virus, avian influenza virus and the like) which affect human beings and animals and is more sensitive to enveloped viruses. The disinfectant of the invention is prepared from the following components in percentage by weight: at a dilution ratio of 800, the composition is still effective on African swine fever virus.

3. Has good stability and can play the role of antibiosis and disinfection for a long time. The stabilizing complexing agent is prepared by compounding triazolone and EDTA (ethylene diamine tetraacetic acid), the EDTA can be chelated with metal ions in the disinfectant to generate hypochlorous acid, the hypochlorous acid can be stabilized in the disinfectant solution (namely the solution after the disinfectant is diluted), the effective chlorine content is basically kept unchanged for a long time, the antibacterial and disinfecting effects can be realized for a long time, and the disinfecting effect is not influenced after the disinfectant is kept for a long time; the anhydrous citric acid has strong chelating force, can be matched with EDTA for use, can fully fix potassium ions and sodium ions in a disinfectant solution, prevent scaling, prevent oxidation components from corroding metals, reduce the corrosion effect on the environment, further ensure the stable existence of hypochlorous acid, and play a role in antibacterial disinfection; triazolone is a high-efficiency bactericide with long lasting period and strong inhabitation, and after the triazolone is compounded with EDTA, the disinfectant solution has better stability, ensures that three disinfection mechanisms of the disinfectant can exist stably for a long time, can reduce the corrosion effect on the environment, improves the disinfection effect of the disinfectant, and has wider application range.

4. No caking, good dispersibility and long storage time. The anticaking agent is an HPMA-GaP compound, is generated by the reaction of dicalcium phosphate and HPMA (low molecular weight polyelectrolyte) under the action of an ammonium citrate solution, can be adhered to the surface of potassium hydrogen persulfate, reduces the friction force among particles, increases the fluidity of the particles, improves the dispersibility among the components of the disinfectant, is not easy to agglomerate, reduces the hygroscopicity of the potassium hydrogen persulfate, reduces the tendency of agglomeration due to moisture absorption, and prolongs the storage time of the disinfectant; the anticaking agent also has excellent scale and corrosion inhibiting effect, reduces the corrosion of the oxidation component of the disinfectant on metal, and has interaction with the composite stabilizer of the invention, so that the disinfectant of the invention does not influence the environment. The invention uses sodium hexametaphosphate to disperse the components of the disinfectant evenly, prevent caking, inhibit the activity of microorganisms and improve the preservation time and the effect of the disinfectant.

5. Can kill virus and bacteria quickly. The disinfectant can completely inactivate bacteria within 5min and viruses within 10min, while the conventional disinfectant usually needs 30min to effectively kill the pathogens.

6. High reliability and no interference from external conditions. The disinfectant disclosed by the invention is not influenced by low temperature, high temperature, water hardness and PH value, and can ensure the disinfection reliability in various scenes and complex environments. The 95% sodium alkyl benzene sulfonate (anionic surfactant) is added in the invention, so that the surface tension can be reduced, the effective components can quickly permeate into the surface of a hollow object, and the inactivated pathogenic microorganisms can be killed.

7. Good water solubility, safety and environmental protection. The disinfectant has good water solubility, good dissolubility even under low temperature, no toxicity to human and animals, no stress and high safety, and is a better choice for disinfecting livestock; the self-cleaning capacity of the water body is not affected, and the components of the disinfectant can be naturally degraded in the environment to generate harmless substances, so that the disinfectant is green and environment-friendly.

8. The product has wide application range, can be suitable for non-plague prevention and control, can also be used for waterline treatment, can prevent and control bacterial diseases such as hemorrhage, gill rot, enteritis and the like of aquaculture fish and shrimps, can also be used for disinfection of various livestock and poultry farms, aquatic factories, veterinary operating rooms, diagnosis and treatment rooms and the like, has high cost performance, and is convenient to store and transport.

Detailed Description

The technical solutions in the embodiments of the present invention are clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The HPMA used in the present invention is HPMA hydrolyzed polymaleic anhydride, manufactured by Shandong Mike Water treatment technology Co., Ltd, but is not limited to HPMA manufactured by this company.

The green disinfectant with strip body of the present invention will be further described with reference to the following embodiments.

Example 1

The preparation method of the green disinfectant capable of disinfecting the belt body comprises the following steps: checking the temperature and the humidity of the environment, ensuring that the temperature is 18-26 ℃ and the humidity is 35-55%; placing 45g of anhydrous citric acid, 52g of sulfamic acid, 161g of sodium alkyl benzene sulfonate with the mass fraction of 95% and 164g of hexametaphosphoric acid in a mixer, and stirring until the mixture is fully and uniformly mixed to obtain a pretreated substance; taking 240g of potassium hydrogen persulfate, adding the pretreatment, 13g of salt, 10g of an anticaking agent, 72g of a stabilizing complexing agent and 3g of lemon fragrance, uniformly mixing, finally adding 240g of potassium hydrogen persulfate, and starting a mixer to mix for 45 min; after mixing, the dust removing equipment is started to quickly split and seal the package, so that the package is not exposed in the air for too long.

The stabilizing complexing agent is prepared by mixing 52g of triazolone and 20g of ethylenediamine tetraacetic acid.

The anticaking agent is HPMA-GaP compound, and the preparation method comprises the following steps: adding 15g of dicalcium phosphate into 60g of 50% ammonium citrate solution in parts by mass, heating to 60 ℃, stirring until the dicalcium phosphate is completely dissolved, then adding 10g of HPMA, heating to 100 ℃, stirring for 1h, performing suction filtration, washing with deionized water for three times, and drying to obtain the HPMA-GaP compound.

Example 2

The preparation method of the green disinfectant capable of disinfecting the belt body comprises the following steps: checking the temperature and the humidity of the environment, ensuring that the temperature is 18-26 ℃ and the humidity is 35-55%; putting 48g of anhydrous citric acid, 43g of sulfamic acid, 135g of sodium alkyl benzene sulfonate with the mass fraction of 95% and 154g of hexametaphosphoric acid into a mixer, and stirring until the mixture is fully and uniformly mixed to obtain a pretreated substance; taking 280g of potassium hydrogen persulfate, adding the pretreatment, 16g of salt, 25g of an anticaking agent, 14g of a stabilizing complexing agent and 5g of lemon, uniformly mixing, finally adding 240g of potassium hydrogen persulfate, and starting a mixer to mix for 45 min; after mixing, the dust removing equipment is started to quickly split and seal the package, so that the package is not exposed in the air for too long.

The stabilizing complexing agent is prepared by mixing 12g of triazolone and 2g of ethylenediamine tetraacetic acid.

The anticaking agent is HPMA-GaP compound, and the preparation method comprises the following steps: adding 40g of dicalcium phosphate into 120g of 50% ammonium citrate solution in parts by mass, heating to 60 ℃, stirring until the dicalcium phosphate is completely dissolved, then adding 10g of HPMA, heating to 100 ℃, stirring for 1h, performing suction filtration, washing with deionized water for three times, and drying to obtain the HPMA-GaP compound.

Example 3

The preparation method of the green disinfectant capable of disinfecting the belt body comprises the following steps: checking the temperature and the humidity of the environment, ensuring that the temperature is 18-26 ℃ and the humidity is 35-55%; placing 56g of anhydrous citric acid, 45g of sulfamic acid, 139g of sodium alkyl benzene sulfonate with the mass fraction of 95% and 187g of hexametaphosphoric acid in a mixer, and stirring until the mixture is fully and uniformly mixed to obtain a pretreated substance; taking 250g of potassium hydrogen persulfate, adding the pretreatment, 18g of salt, 14g of an anticaking agent, 33g of a stabilizing complexing agent and 8g of lemon fragrance, uniformly mixing, finally adding 250g of potassium hydrogen persulfate, and starting a mixer to mix for 45 min; after mixing, the dust removing equipment is started to quickly split and seal the package, so that the package is not exposed in the air for too long.

The stabilizing complexing agent is prepared by mixing 25g of triazolone and 8g of ethylenediamine tetraacetic acid.

The anticaking agent is HPMA-GaP compound, and the preparation method comprises the following steps: adding 30g of dicalcium phosphate into 150g of 50% ammonium citrate solution in parts by mass, heating to 60 ℃, stirring until the dicalcium phosphate is completely dissolved, then adding 10g of HPMA, heating to 100 ℃, stirring for 1h, performing suction filtration, washing with deionized water for three times, and drying to obtain the HPMA-GaP compound.

Example 4

The preparation method of the green disinfectant capable of disinfecting the belt body comprises the following steps: checking the temperature and the humidity of the environment, ensuring that the temperature is 18-26 ℃ and the humidity is 35-55%; 50g of anhydrous citric acid, 47g of sulfamic acid, 144g of sodium alkyl benzene sulfonate with the mass fraction of 95% and 165g of hexametaphosphoric acid are placed in a mixer and stirred until the mixture is fully and uniformly mixed to obtain a pretreated substance; taking 256g of potassium hydrogen persulfate, adding the pretreatment, 15g of salt, 16g of an anticaking agent, 44g of a stabilizing complexing agent and 6g of lemon, uniformly mixing, finally adding 257g of potassium hydrogen persulfate, and starting a mixer to mix for 45 min; after mixing, the dust removing equipment is started to quickly split and seal the package, so that the package is not exposed in the air for too long.

The stabilizing complexing agent is prepared by mixing 34g of triazolone and 10g of ethylenediamine tetraacetic acid.

The anticaking agent is HPMA-GaP compound, and the preparation method comprises the following steps: adding 15g of dicalcium phosphate into 75g of 50% ammonium citrate solution in parts by mass, heating to 60 ℃, stirring until the dicalcium phosphate is completely dissolved, then adding 10g of HPMA, heating to 100 ℃, stirring for 1h, performing suction filtration, washing with deionized water for three times, and drying to obtain the HPMA-GaP compound.

Example 5

The preparation method of the green disinfectant capable of disinfecting the belt body comprises the following steps: checking the temperature and the humidity of the environment, ensuring that the temperature is 18-26 ℃ and the humidity is 35-55%; 50g of anhydrous citric acid, 50g of sulfamic acid, 150g of sodium alkyl benzene sulfonate with the mass fraction of 95 percent and 179g of hexametaphosphoric acid are placed in a mixer and stirred until the mixture is fully and uniformly mixed to obtain a pretreated substance; taking 132.5g of potassium hydrogen persulfate, adding the pretreatment, 15g of salt and 6g of lemon flavor, uniformly mixing, finally adding 397.5g of potassium hydrogen persulfate, and starting a mixer to mix for 45 min; after mixing, the dust removing equipment is started to quickly split and seal the package, so that the package is not exposed in the air for too long.

The invention discloses a use method of a green disinfectant capable of disinfecting by a belt body, which comprises the following steps:

1) drinking water disinfection, 1: diluting with 1000 concentration;

2) biological prevention and control of African swine fever: 1: 200 dilution, spraying or washing, which can be used to disinfect barn environment, vehicles and personnel, drinking equipment, air, terminals, equipment, hatcheries, foot basins, etc.;

3) for pathogen disinfection, african swine fever virus and other enveloped viruses, 1: diluting with 800 concentration; enterococcus and the like, 1: diluting with 400 concentration; streptococcus, influenza virus, foot-and-mouth disease, 1: diluting with 800 concentration;

4) waterline processing, 1: diluting with 100% concentration, soaking in water.

It is worth noting that: if the disinfectant water prepared by the invention is used for washing hands, the disinfectant water needs to be replaced every day, and the disinfectant water is used for washing hands and then is used for washing hands with clean water.

The disinfectant prepared according to the above examples 1 to 5 was tested, and the test items, methods and data thereof are shown below.

1. And (3) killing test of microbial germs: the disinfection technical specification is used as a test basis, the test temperature is 25 +/-5 ℃, and the experimental results are shown in the following table 1.

TABLE 1 results of the microbial germ kill test

As can be seen from the above Table 1, the addition of the anticaking agent and the composite stabilizer of the present invention has a more excellent sterilizing effect.

2. And (3) stability test: the stability test was carried out based on the "Disinfection Specification" test, the storage temperature was 37 ℃, the detection temperature was 25 ℃, the relative humidity was 35-55%, and the detection results are shown in Table 2 below.

TABLE 2 disinfectant stability test results table

As can be seen from Table 2, the disinfectant of the present invention, after being diluted, can be stably preserved for a period of time and still has a good disinfecting effect after being added with the anti-caking agent and the composite stabilizer. The disinfectant of the invention can be kept for two years in the effective period under the condition of sealing or non-reaction with contact medium, if the disinfectant is powder, no caking phenomenon occurs, and the monthly loss rate of the final main index active substance after two years is not more than 0.03%.

3. Metal corrosion test: the test materials are stainless steel, carbon steel and copper according to the 'disinfection technical specification', the test temperature is 25 +/-5 ℃, and the test results are shown in the following table 3.

TABLE 3 disinfectant Metal corrosivity test results table

As can be seen from Table 3, the anti-caking agent and the composite stabilizer added in the invention have no corrosion to metals.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.