阅读说明：本技术 一种oh-负离子抗菌抑菌液及其制备方法 (OH-negative ion antibacterial bacteriostatic liquid and preparation method thereof ) 是由 顾振荣 李海权 于 2020-05-29 设计创作，主要内容包括：本发明属于抗菌抑菌液技术领域,尤其本发明公开了一种OH-负离子抗菌抑菌液及其制备方法,包括以下重量份的原料：OH-矿物质负离子3-35份、钠离子1-15份、钾离子1-15份、钙离子1-15份、去离子水200-300份。本发明可用于室内空气、手部清洁、皮肤、口罩、家具、衣服和鞋子,适用范围广,可以对大肠杆菌、金黄色葡萄球菌、白色念珠菌、H1N1流感病毒、人冠状病毒、禽流感、手足口病毒、鼠疫病毒、霍乱病毒等多种细菌和病毒具有清洁和抑制作用,有效预防交叉感染,适合推广使用。(The invention belongs to the technical field of antibacterial and bacteriostatic solutions, and particularly discloses an OH-anion antibacterial and bacteriostatic solution and a preparation method thereof, wherein the OH-anion antibacterial and bacteriostatic solution comprises the following raw materials in parts by weight: 3-35 parts of OH-mineral negative ions, 1-15 parts of sodium ions, 1-15 parts of potassium ions, 1-15 parts of calcium ions and 300 parts of deionized water. The invention can be used for indoor air, hand cleaning, skin, mask, furniture, clothes and shoes, has wide application range, can clean and inhibit various bacteria and viruses such as escherichia coli, staphylococcus aureus, candida albicans, H1N1 influenza virus, human coronavirus, avian influenza, hand-foot-and-mouth virus, plague virus, cholera virus and the like, effectively prevents cross infection, and is suitable for popularization and use.)

1. The OH-anion antibacterial bacteriostatic solution is characterized by comprising the following raw materials in parts by weight: 3-35 parts of OH-mineral negative ions, 1-15 parts of sodium ions, 1-15 parts of potassium ions, 1-15 parts of calcium ions and 300 parts of deionized water.

2. The OH-anion antibacterial and bacteriostatic solution according to claim 1, which is characterized by comprising the following raw materials in parts by weight: 3 parts of OH-mineral negative ions, 1 part of sodium ions, 1 part of potassium ions, 1 part of calcium ions and 200 parts of deionized water.

3. The OH-anion antibacterial and bacteriostatic solution according to claim 1, which is characterized by comprising the following raw materials in parts by weight: 20 parts of OH-mineral negative ions, 8 parts of sodium ions, 8 parts of potassium ions, 8 parts of calcium ions and 250 parts of deionized water.

4. The OH-anion antibacterial and bacteriostatic solution according to claim 1, which is characterized by comprising the following raw materials in parts by weight: 35 parts of OH-mineral negative ions, 15 parts of sodium ions, 15 parts of potassium ions, 15 parts of calcium ions and 300 parts of deionized water.

5. A method for preparing the OH-anion antibacterial bacteriostatic solution according to any one of claims 1 to 4, which is characterized by comprising the following steps,

s1: heating alkaline metal ores for 2-10 hours at the temperature of 1000 ℃ and under the pressure of 0-500Kpa, wherein the alkaline metal ores comprise 31-35 wt% of potash feldspar, 23-27 wt% of enstatite, 17-21 wt% of hornblende and 15-19 wt% of crystal saltpeter;

s2: crushing the obtained product, uniformly mixing, and removing impurities and filtering the crushed powder in a mesh with 300-900 meshes;

s3: adding water into the crushed powder, stirring for 0-6 hours, electrolyzing sodium metasilicate, potassium chloride and potassium carbonate in the water to generate potassium, sodium and silicon mineral components, adding hydroxyl ions to enable the pH value of the solution to reach 13-14, and finally generating strong alkaline concentrated solution;

s4: and (3) mixing the strong-alkaline concentrated solution and the deionized water in parts by weight in a container, controlling the stirring speed to be 25-35r/min, controlling the stirring time to be 1-4min, and standing at room temperature for 10-40min to obtain the OH-negative ion antibacterial bacteriostatic solution.

6. The method of claim 5, wherein in step S1, the alkaline metal ore is heated at 900 ℃ under 250Kpa for 8 hours, and the alkaline metal ore comprises potash feldspar, enstatite, amphibole and crystal halite, and the weight ratio of the alkali metal ore is 34% of potash feldspar, 26% of enstatite, 21% of amphibole and 19% of crystal halite.

7. The method of claim 5, wherein in step S3, the pulverized powder is added to water and stirred for 3 hours, and sodium metasilicate, potassium chloride and potassium carbonate are electrolyzed in water to generate mineral components of potassium, sodium and silicon, hydroxyl ions are added to make the pH of the solution reach 14, and finally a strong alkaline concentrated solution is generated.

8. The method of claim 5, wherein in step S4, the concentrated solution of strong basicity and the deionized water are mixed in a container, the stirring speed is controlled at 30r/min, the stirring time is controlled at 2.5min, and the mixture is left standing at room temperature for 25min to obtain the OH-anion antibacterial solution.

Technical Field

The invention relates to the technical field of antibacterial and bacteriostatic liquids, in particular to an OH-anion antibacterial and bacteriostatic liquid and a preparation method thereof.

Background

The existing disinfectant has various types and different drug effects, for example, the disinfectant specially used for medical instruments, the disinfectant directly acting on skin to disinfect and sterilize wounds, the water disinfectant specially used for fish culture, the disinfectant specially used for kitchen ware disinfection and the like. The components of various disinfection solutions vary greatly according to the disinfection objects, but all of them are used for killing pathogenic bacteria and inhibiting the growth of bacteria. The disinfectant for disinfecting skin, furniture and the like mostly contains chemical components, although the chemical components can really play the antibacterial and bactericidal effects, the disinfectant has toxic and side effects on a human body after long-term use, and the cleaned wastewater flows into the nature and pollutes the environment.

Therefore, the invention provides an OH-anion antibacterial bacteriostatic solution and a preparation method thereof.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides an OH-anion antibacterial bacteriostatic solution and a preparation method thereof.

In order to achieve the purpose, the invention adopts the following technical scheme:

an OH-anion antibacterial bacteriostatic solution comprises the following raw materials in parts by weight: 3-35 parts of OH-mineral negative ions, 1-15 parts of sodium ions, 1-15 parts of potassium ions, 1-15 parts of calcium ions and 300 parts of deionized water.

Preferably, the feed comprises the following raw materials in parts by weight: 3 parts of OH-mineral negative ions, 1 part of sodium ions, 1 part of potassium ions, 1 part of calcium ions and 200 parts of deionized water.

Preferably, the feed comprises the following raw materials in parts by weight: 20 parts of OH-mineral negative ions, 8 parts of sodium ions, 8 parts of potassium ions, 8 parts of calcium ions and 250 parts of deionized water.

Preferably, the feed comprises the following raw materials in parts by weight: 35 parts of OH-mineral negative ions, 15 parts of sodium ions, 15 parts of potassium ions, 15 parts of calcium ions and 300 parts of deionized water.

A preparation method of OH-anion antibacterial bacteriostatic solution comprises the following steps,

s1: heating alkaline metal ores for 2-10 hours at the temperature of 1000 ℃ and under the pressure of 0-500Kpa, wherein the alkaline metal ores comprise 31-35 wt% of potash feldspar, 23-27 wt% of enstatite, 17-21 wt% of hornblende and 15-19 wt% of crystal saltpeter;

s2: crushing the obtained product, uniformly mixing, and removing impurities and filtering the crushed powder in a mesh with 300-900 meshes;

s3: adding water into the crushed powder, stirring for 0-6 hours, electrolyzing sodium metasilicate, potassium chloride and potassium carbonate in the water to generate potassium, sodium and silicon mineral components, adding hydroxyl ions to enable the pH value of the solution to reach 13-14, and finally generating strong alkaline concentrated solution;

s4: and (3) mixing the strong-alkaline concentrated solution and the deionized water in parts by weight in a container, controlling the stirring speed to be 25-35r/min, controlling the stirring time to be 1-4min, and standing at room temperature for 10-40min to obtain the OH-negative ion antibacterial bacteriostatic solution.

Preferably, in S1, the ore of the alkali metal is heated for 8 hours at 900 ℃ under 250Kpa, and the ore of the alkali metal comprises potash feldspar, enstatite, amphibole and crystal halite, and the weight ratio of the alkali metal to the alkali metal is 34% of potash feldspar, 26% of enstatite, 21% of amphibole and 19% of crystal halite.

Preferably, in S3, the pulverized powder is added to water, stirred for 3 hours, and electrolyzed in water to produce potassium, sodium, and silicon mineral components, and hydroxyl ions are added to make the PH of the solution reach 14, and finally, a strong alkaline concentrated solution is produced.

Preferably, in the step S4, the strong alkaline concentrated solution and the deionized water in parts by weight are placed into a container to be mixed, the stirring speed is controlled at 30r/min, the stirring time is controlled at 2.5min, and the mixture is kept stand at room temperature for 25min to obtain the OH-anion antibacterial bacteriostatic solution.

Compared with the prior art, the invention has the beneficial effects that: the OH-anion antibacterial bacteriostatic liquid disclosed by the invention is high in sterilization rate and stable in sterilization performance, three groups of embodiments can perform sterilization at high sterilization rate, the OH-anion antibacterial bacteriostatic liquid does not contain an alcohol component, can release anions, is convenient to carry on high-speed rails and airplanes, does not have influence, does not contain chemical additives, does not worry about side effects on skin when being used for the skin, can be used for cleaning indoor air, hands, skin, mask, furniture, clothes and shoes, is wide in application range, can clean and inhibit various bacteria and viruses such as escherichia coli, staphylococcus aureus, candida albicans, H1N1 influenza virus, human coronavirus, avian influenza, hand-foot-and-mouth virus, plague virus, cholera virus and the like, can effectively prevent cross infection, and is suitable for popularization and use.

Detailed Description

The technical solutions in the embodiments of the present invention will be 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.