CN113274306A - Preparation method of daily-use healthy and environment-friendly oral deodorant - Google Patents

Abstract

The invention discloses a preparation method of a daily-use environment-friendly healthy oral deodorant, which comprises the following steps: step 1: pulverizing sodium chloride, sodium citrate, sodium lactate, sodium fruoate, sodium lauryl sulfate, zinc glycyrrhetate, and sodium carbonate to obtain powder; step 2: putting the powdery material obtained in the step 1 into a beaker, sequentially adding a thickening agent and a sucralose sweetening agent, soaking for at least 3 hours, and adding deionized water into the obtained solution; and step 3: and (3) collecting the filtrate obtained in the step (2), filtering and concentrating to obtain the daily oral cavity deodorant, wherein the daily oral cavity deodorant is comprehensively considered from three aspects of micro-chemical environment, health and environmental protection, and the dual purposes of repairing oral mucosa are realized while the micro-chemical environment of the oral cavity is changed.

Description

Preparation method of daily-use healthy and environment-friendly oral deodorant

Technical Field

The invention belongs to the technical field of daily oral cavity antibacterial cleaning, and particularly relates to a preparation method of a daily healthy environment-friendly oral cavity deodorant.

Background

Usually, after people get up in the morning, because the oral cavity is closed when people sleep, air is not smooth, and a lot of oral cavity mucus and other secretions exist, a lot of bacteria can be bred, so that peculiar smell is easily generated in the oral cavity. Local diseases of the oral cavity can also cause bad breath due to ulcer, gum swelling and pain, dental caries, food residue, etc. Therefore, people have many researches on the method, and many products are continuously put into the market.

The ethanol-containing disinfectant mouthwash has good effect, but seriously stimulates oral mucosa due to high concentration, and simultaneously brings difficulty to alcohol testing of drunk driving, thereby troubling consumers; the traditional Chinese medicine extract can also eliminate the peculiar smell of the oral cavity by oral bacteriostasis, but the content of effective components is low, because each plant contains thousands of chemical components, the effective components are only one or more of the chemical components, and the specific risks of other chemical components are unpredictable; antibiotic antibacterial technology can also realize the removal of oral peculiar smell by having good targeted sterilization to different bacteria, but long-term use of various antibiotics can cause bacteria to generate antibodies and arouse the risk of fungal infection, and the environment pollution can be caused when the antibiotics are put into the environment.

Disclosure of Invention

The invention aims to provide a preparation method of a daily-use environment-friendly healthy oral deodorant, which aims to solve the problems that the existing mouthwash is easy to stimulate oral mucosa, and bacteria can generate antibodies and stimulate fungal infection risks when the gargle containing antibiotics is used for a long time.

The invention adopts the following technical scheme: a preparation method of a daily-use environment-friendly healthy oral deodorant comprises the following steps:

step 1: pulverizing sodium chloride, sodium citrate, sodium lactate, sodium fruoate, sodium lauryl sulfate, zinc glycyrrhetate, and sodium carbonate to obtain powder;

step 2: putting the powdery material obtained in the step 1 into a beaker, sequentially adding a thickening agent and a sucralose sweetening agent, soaking for at least 3 hours, and adding deionized water into the obtained solution;

and step 3: and (3) collecting the filtrate obtained in the step (2), filtering and concentrating to obtain the daily oral cavity deodorant.

The daily environment-friendly healthy oral deodorant is prepared from the following components in parts by weight:

the total content of the raw materials is 1000 parts.

Further, the feed additive is prepared from the following raw materials in parts by weight: 5 parts of sodium chloride, 15 parts of sodium citrate, 2 parts of sodium lactate, 1 part of sodium levulinate, 5 parts of sodium lauryl sulfate, 1.5 parts of zinc glycyrrhetate, 2 parts of sodium carbonate, 1 part of thickening agent, 0.1 part of sucralose sweetening agent and the balance of deionized water.

Further, the particle size of the sodium carbonate is 15-50 microns.

Further, the thickening agent is xanthan gum, and the sweetening agent is sucralose.

Further, the diameter of the powdery material in the step 1 is 380-830 mu m.

The invention adopts another technical scheme that the daily-use environment-friendly healthy oral deodorant is prepared from the following raw materials in parts by weight:

the total content of the raw materials is 1000 parts.

The invention has the beneficial effects that: the invention comprehensively considers the micro-chemical environment, the health and the environmental protection, realizes the double purposes of repairing the oral mucosa while changing the micro-chemical environment of the oral cavity, and solves the problems that the existing gargle is easy to stimulate the oral mucosa, and bacteria can generate antibodies and stimulate the infection risk of the fungi when the gargle containing antibiotics is used for a long time. The raw materials are put into the environment after being used and can be rapidly degraded without causing environmental pollution, the whole process from the production source to the putting environment can be realized, the production is carried out by a simple physical mixing method, the process is simple, and the industrialization prospect is wide.

Detailed Description

The present invention will be described in detail with reference to the following embodiments.

The invention provides a preparation method of a daily-use environment-friendly healthy oral deodorant, which comprises the following steps:

step 1: pulverizing sodium chloride, sodium citrate, sodium lactate, sodium fruoate, sodium lauryl sulfate, zinc glycyrrhetate, and sodium carbonate to obtain powder;

step 2: putting the powdery material obtained in the step 1 into a beaker, sequentially adding a thickening agent and a sucralose sweetening agent, soaking for at least 3 hours, and adding deionized water into the obtained solution;

and step 3: and (3) collecting the filtrate obtained in the step (2), filtering and concentrating to obtain the daily oral cavity deodorant.

The daily environment-friendly healthy oral deodorant is prepared from the following components in parts by weight:

the total content of the raw materials is 1000 parts.

The oral cavity deodorant is prepared from zinc glycyrrhetate, and the zinc glycyrrhetate is added to accelerate the healing speed of oral ulcer and improve the oral immunity. Sodium citrate, sodium lactate, sodium levulinate and other organic acid sodium salts are selected to improve the taste, assist sodium carbonate to increase the pH buffering capacity and increase the time for keeping the effect after removing the peculiar smell in the oral cavity. Sodium chloride is selected to assist oral bacteriostasis and regulate mouthfeel.

The purpose of the sodium carbonate is to dominate the overall pH adjustment of the system, improving the oral pH environment. The addition of sodium lauryl sulfate can increase the oral cleaning effect during the gargling process and the comfort during the gargling process. The oral cavity micro-chemical environment is adjusted by taking sodium carbonate as a main factor, the maintaining time of the adjusted micro-chemical environment is prolonged by an organic acid sodium salt, the micro-chemical environment adjusting strength is enhanced by sodium chloride in an auxiliary mode, the zinc glycyrrhetate increases the oral cavity immunity, the sodium lauryl sulfate increases the comfort and the cleaning effect in the gargling process, and the aim of quickly removing the peculiar smell of the oral cavity is finally achieved by quickly improving the oral cavity micro-chemical environment on the basis of guaranteeing the oral cavity health through the combined action of the components. The system effectively removes nitrogen, phosphorus, potassium and other elements causing the water body to be rich in oxidation elements, the main components are easy to degrade, and the water body pollution is not caused after the water body is discharged into the environment after the water body is used.

In some embodiments, the composition is prepared from the following raw materials in parts by weight: 5 parts of sodium chloride, 15 parts of sodium citrate, 2 parts of sodium lactate, 1 part of sodium levulinate, 5 parts of sodium lauryl sulfate, 1.5 parts of zinc glycyrrhetate, 2 parts of sodium carbonate, 1 part of thickening agent, 0.1 part of sucralose sweetening agent and the balance of deionized water.

In some embodiments, the particle size of the sodium carbonate is 15 microns to 50 microns.

In some embodiments, the thickening agent is xanthan gum and the sweetener is sucralose.

In some embodiments, the diameter of the powdery material in step 1 is 380 to 830 μm.

The invention adopts another technical scheme that the daily-use environment-friendly healthy oral deodorant is prepared from the following raw materials in parts by weight:

the total content of the raw materials is 1000 parts.

The invention comprehensively considers the micro-chemical environment, the health and the environmental protection, realizes the double purposes of repairing the oral mucosa while changing the micro-chemical environment of the oral cavity, and solves the technical problems existing in the background technology. The raw materials can be rapidly degraded in the putting environment after being used, so that the environment pollution is avoided, the whole process from the production source to the putting environment is healthy and pollution-free, the production is realized by a simple physical mixing method, the process is simple, and the industrialization prospect is wide.

Example 1

Step 1: weighing 50g of sodium chloride, 10g of sodium citrate, 1g of sodium lactate, 15g of sodium levulinate, 10g of sodium lauryl sulfate, 1g of zinc glycyrrhetate and 1g of sodium carbonate, and crushing to obtain a powdery material; the diameter of the powdery material is 380-830 mu m;

step 2: putting the powdery material obtained in the step 1 into a beaker, sequentially adding 1g of xanthan gum and 0.15g of sucralose to soak for at least 3 hours, and adding deionized water into the obtained solution;

and step 3: and (3) collecting the filtrate obtained in the step (2), filtering and concentrating to obtain the daily oral cavity deodorant.

Example 2

Step 1: weighing 5g of sodium chloride, 15g of sodium citrate, 2g of sodium lactate, 1g of sodium levulinate, 5g of sodium lauryl sulfate, 1.5g of zinc glycyrrhetate and 2g of sodium carbonate, and crushing to obtain a powdery material; the diameter of the powdery material is 380-830 mu m;

step 2: putting the powdery material obtained in the step 1 into a beaker, sequentially adding 1g of xanthan gum and 0.1g of sucralose to soak for at least 3 hours, and adding deionized water into the obtained solution;

and step 3: and (3) collecting the filtrate obtained in the step (2), filtering and concentrating to obtain the daily oral cavity deodorant.

Example 3

Step 1: respectively weighing 20g of sodium chloride, 10g of sodium citrate, 2g of sodium lactate, 15g of sodium levulinate, 15g of sodium lauryl sulfate, 2.5g of zinc glycyrrhetate and 5g of sodium carbonate, and crushing to obtain powdery materials; the diameter of the powdery material is 380-830 mu m;

step 2: putting the powdery material obtained in the step 1 into a beaker, sequentially adding 2g of xanthan gum and 0.2g of sucralose to soak for at least 3 hours, and adding deionized water into the obtained solution;

and step 3: and (3) collecting the filtrate obtained in the step (2), filtering and concentrating to obtain the daily oral cavity deodorant.

Example 4

Step 1: respectively weighing 50g of sodium chloride, 1g of sodium citrate, 10g of sodium lactate, 10g of sodium levulinate, 10g of sodium lauryl sulfate, 0.5g of zinc glycyrrhetate and 0.5g of sodium carbonate, and crushing to obtain powdery materials; the diameter of the powdery material is 380-830 mu m;

step 2: putting the powdery material obtained in the step 1 into a beaker, sequentially adding 0.5g of xanthan gum and 0.25g of sucralose to soak for at least 3 hours, and adding deionized water into the obtained solution;

and step 3: and (3) collecting the filtrate obtained in the step (2), filtering and concentrating to obtain the daily oral cavity deodorant.

Example 5

Step 1: respectively weighing 10g of sodium chloride, 10g of sodium citrate, 2g of sodium lactate, 2g of sodium levulinate, 8g of sodium lauryl sulfate, 1g of zinc glycyrrhetate and 2g of sodium carbonate, and crushing to obtain powdery materials; the diameter of the powdery material is 380-830 mu m;

step 2: putting the powdery material obtained in the step 1 into a beaker, sequentially adding 1g of xanthan gum and 0.1g of sucralose to soak for at least 3 hours, and adding deionized water into the obtained solution;

and step 3: and (3) collecting the filtrate obtained in the step (2), filtering and concentrating to obtain the daily oral cavity deodorant.

Example 6

Step 1: respectively weighing 20g of sodium chloride, 12g of sodium citrate, 4g of sodium lactate, 8g of sodium levulinate, 12g of sodium lauryl sulfate, 2g of zinc glycyrrhetate and 3g of sodium carbonate, and crushing to obtain powdery materials; the diameter of the powdery material is 380-830 mu m;

step 2: putting the powdery material obtained in the step 1 into a beaker, sequentially adding 1.5g of xanthan gum and 0.2g of sucralose to soak for at least 3 hours, and adding deionized water into the obtained solution;

and step 3: and (3) collecting the filtrate obtained in the step (2), filtering and concentrating to obtain the daily oral cavity deodorant.

The invention comprehensively considers the micro-chemical environment, the health and the environmental protection, realizes the double purposes of repairing the oral mucosa while changing the micro-chemical environment of the oral cavity, and solves the technical problems existing in the background technology. The raw materials can be rapidly degraded in the putting environment after being used, so that the environment pollution is avoided, the whole process from the production source to the putting environment is healthy and pollution-free, the production is realized by a simple physical mixing method, the process is simple, and the industrialization prospect is wide.

Comparative example 1

Respectively weighing 20g of sodium chloride, 15g of sodium lauryl sulfate, 2.5g of zinc glycyrrhetate, 5g of sodium carbonate, 2g of xanthan gum and 0.2g of sucralose, respectively adding the materials into a 1000mL beaker, and adding deionized water until the total weight is 1000 g. Mechanically stirring at normal temperature to obtain homogeneous solution as the sample.

Comparative example 2

Respectively weighing 20g of sodium chloride, 10g of sodium citrate, 2g of sodium lactate, 15g of sodium levulinate, 15g of sodium lauryl sulfate, 2.5g of zinc glycyrrhetate, 2g of xanthan gum and 0.2g of sucralose, respectively adding the materials into a 1000mL beaker, and adding deionized water until the total weight is 1000 g. Mechanically stirring at normal temperature to obtain homogeneous solution as the sample.

Comparative example 3

5g of sodium carbonate are weighed and deionized water is added to a total weight of 1000 g. Mechanically stirring at normal temperature to obtain homogeneous solution as the sample.

Comparative example 4

Respectively weighing 10g of sodium citrate, 1g of sodium lactate, 15g of sodium levulinate, 10g of sodium lauryl sulfate, 1g of zinc glycyrrhetate, 1g of sodium carbonate, 1g of xanthan gum and 0.15g of sucralose, respectively adding the materials into a 1000mL beaker, and adding deionized water until the total weight is 1000 g. Mechanically stirring at normal temperature to obtain homogeneous solution as the sample.

Comparative example 5

Respectively weighing 50g of sodium chloride, 10g of sodium citrate, 1g of sodium lactate, 15g of sodium levulinate, 1g of zinc glycyrrhetate, 1g of sodium carbonate, 1g of xanthan gum and 0.15g of sucralose, respectively adding the materials into a 1000mL beaker, and adding deionized water until the total weight is 1000 g. Mechanically stirring at normal temperature to obtain homogeneous solution as the sample.

Comparative example 6

Respectively weighing 50g of sodium chloride, 10g of sodium citrate, 1g of sodium lactate, 15g of sodium levulinate, 10g of sodium lauryl sulfate, 1g of sodium carbonate, 1g of xanthan gum and 0.15g of sucralose, respectively adding the materials into a 1000mL beaker, and adding deionized water until the total weight is 1000 g. Mechanically stirring at normal temperature to obtain homogeneous solution as the sample.

According to a microbiological detection method of a product B in appendix of GB15979-2002 hygienic Standard for Disposable sanitary articles, the oral bacteriostatic mouth wash provided in example 3 is subjected to microbiological index detection under the following detection conditions: the test environment temperature is 25 ℃ and the relative humidity is 65%. The test results are shown in Table 1 and meet the regulation of GB15979-2002 hygienic Standard for Disposable sanitary articles.

TABLE 1 EXAMPLE 3 data sheet of microbiological indicator test results

Detecting the index	Unit of	Standard value	Measured value
				Total number of bacterial colonies	cfu/mL	≤200	<10
Fungi	cfu/mL	≤100	<10
				Coliform group bacteria	—	Cannot be detected	Not detected out
Pseudomonas aeruginosa	—	Cannot be detected	Not detected out
				Staphylococcus aureus	—	Cannot be detected	Not detected out
Hemolytic streptococcus	—	Cannot be detected	Not detected out

Bacteriostatic tests were carried out on the oral bacteriostatic mouthwashes provided in examples 1-6 and comparative examples 1-6 according to appendix C of GB 15979-2002.

Test strains: staphylococcus aureus ATCC6538, Escherichia coli 8099 and Candida albicans ATCC10231, provided by China general microbiological culture Collection center, with the strain generation number being 7, and TPS is used for preparing bacterial suspension.

And (3) testing the antibacterial performance: according to GB15979-2002 appendix C, each 5mL of example 3 sample solution is infected with 100. mu.L of the bacteria, the action time is 30s, 60s, 90s and 120s, and the temperature is 20 +/-1 ℃. The experiment was repeated 3 times.

The test results are given in the following table:

table 2 data table of average bacteriostatic rate test results of examples 1 to 4

Table 3: comparative example 1 average bacteriostasis rate test result data table

Table 4: comparative example 2 average bacteriostasis rate test result data table

Table 5: comparative example 3 average bacteriostasis rate test result data table

Table 6: comparative example 4 average bacteriostasis rate test result data table

Table 7: comparative example 5 average bacteriostasis rate test result data table

Table 8: comparative example 6 average bacteriostasis rate test result data table

As shown in the data tables of the detection results in tables 2 to 8, the bacteriostatic data of comparative examples 1 to 4, comparative example 2 and comparative example 3 are compared, and the sodium carbonate has obvious bacteriostatic action.

As can be seen from comparison of the bacteriostatic data of example 3 and comparative example 1, the addition of the organic acid sodium salt increases the pH value capacity, reduces the bacteriostatic effect at the initial stage, and increases the bacteriostatic effect with time.

As can be seen from the comparison of the bacteriostatic data of the example 1 and the comparative example 4, the addition of the sodium chloride increases the bacteriostatic rate and enhances the bacteriostatic effect.

As can be seen from comparison of the bacteriostatic data of the example 1 and the comparative examples 5 to 6, sodium lauryl sulfate and a small amount of zinc glycyrrhetate do not contribute to the bacteriostatic action.

The group test mainly aims at realizing the technology for quickly removing the oral odor on the basis of health and environmental protection, and aims at meeting the requirements of the masses, so the group test and the acquisition of the most visual experience of the tested group have important significance on whether the technology can be industrialized or commercialized.

50 volunteers (30 men and 20 women) are gathered to the society for visual perception test, 10mL of mouth wash is carried out for 60s (then tap water is used for mouth wash once again) for each person, the smell removal effect is judged by smelling the exhaled gas by other people before and after mouth wash, the mouth wash effect is compared with the tap water mouth wash effect, and the mouth feel in the mouth wash process is visually expressed.

Table 9: experimental and comparative example population test data sheet

	Deodorizing effect	Taste of the product
			Example 1	Good effect	Good effect
Example 2	Good effect	Good effect
			Example 3	Good effect	Good effect
Example 4	Good effect	Good effect
			Comparative example 1	Good effect	Slight irritation of throat
Comparative example 2	Difference (D)	Good effect
			Comparative example 3	Good effect	Poor sensation of vomiting
Comparative example 4	Good effect	Slight irritation of throat
			Comparative example 5	Good effect	Good but poor food residue removal.
Comparative example 6	Good effect	Good effect

Ulcer elimination test, 30 ordinary mouth ulcer patients (without basic disease) were tested in 3 groups, 10 tap water mouthwashes (rinse with tap water after meal, 3 times daily), 10 samples of example 1 (rinse with tap water for 60s after 10mL of example 1 sample after meal, rinse with tap water for 3 times daily), 10 samples of comparative example 6 (rinse with tap water for 60s after 10mL of comparative example 6 sample after meal, rinse with tap water for 3 times daily)

According to the medical knowledge, the ordinary oral ulcer patient (without basic disease) usually heals automatically in about 7 days, which is basically consistent with the situation of tap water gargling in the test process. As can be seen from the following table, the zinc oxalate has obvious effect on eliminating dental ulcer and can effectively enhance the oral immunity.

The invention takes food additives, beverage raw materials and the like as raw materials, guarantees the health and safety of the body from the source, neutralizes common acidic peculiar smell gas by temporarily changing the micro chemical environment of the oral cavity, realizes the rapid removal of the oral peculiar smell, and prolongs the time for removing the oral peculiar smell by the buffer solution technology. Meanwhile, the micromolecular organic acid salt which is beneficial to the restoration of oral mucosa is added, the source of the peculiar smell generated in the oral cavity is improved, the oral immunity is increased, the oral health is cared, and the aim of gradually realizing no peculiar smell generated in the oral cavity by long-term use is fulfilled. The invention comprehensively considers from three aspects of micro-chemical environment, health and environmental protection, realizes the dual purposes of repairing oral mucosa while changing the oral micro-chemical environment, the throwing environment of the raw materials can be quickly degraded after use without causing environmental pollution, the whole process from the production source to the throwing environment is healthy and pollution-free, the raw materials selected by the technology are food additives, beverage raw materials and the like, are easy to degrade, do not pollute the environment after use, are produced by a simple physical mixing method, have simple process and wide industrial prospect.

Claims (6)

1. The preparation method of the daily-use environment-friendly healthy oral deodorant is characterized by comprising the following steps of:

step 1, taking sodium chloride, sodium citrate, sodium lactate, sodium levulinate, sodium lauryl sulfate, zinc glycyrrhetate and sodium carbonate, and crushing to obtain a powdery material;

2, putting the powdery material obtained in the step 1 into a beaker, sequentially adding a thickening agent and a sucralose sweetening agent, soaking for at least 3 hours, and adding deionized water into the obtained solution;

and 3, collecting the filtrate obtained in the step 2, filtering and concentrating to obtain the daily oral cavity deodorant.

The daily environment-friendly healthy oral deodorant is prepared from the following components in parts by weight:

the total content of the raw materials is 1000 parts.

2. The preparation method of the daily use environment-friendly healthy oral deodorant according to claim 1, wherein the daily use environment-friendly healthy oral deodorant is prepared from the following raw materials in parts by weight: 5 parts of sodium chloride, 15 parts of sodium citrate, 2 parts of sodium lactate, 1 part of sodium levulinate, 5 parts of sodium lauryl sulfate, 1.5 parts of zinc glycyrrhetate, 2 parts of sodium carbonate, 1 part of thickening agent, 0.1 part of sucralose sweetening agent and the balance of deionized water.

3. The method for preparing a daily use environment-friendly healthy oral deodorant according to claim 2, wherein the particle size of the sodium carbonate is 15-50 microns.

4. The method for preparing a daily use environment-friendly healthy oral cavity deodorant according to claim 1 or 2, wherein the thickener is xanthan gum, and the sweetener is sucralose.

5. The method for preparing a daily use environment-friendly healthy oral deodorant according to claim 4, wherein the diameter of the powdery material in the step 1 is 380-830 μm.

6. The daily-use environment-friendly healthy oral deodorant is characterized by being prepared from the following raw materials in parts by weight:

the total content of the raw materials is 1000 parts.