CN110804508A - Nano-silver antibacterial composite perfumed soap and preparation method thereof - Google Patents

Abstract

The invention provides a nano-silver antibacterial composite perfumed soap and a preparation method thereof, belonging to the technical field of daily washing products, the nano-silver antibacterial composite perfumed soap is prepared from the following raw materials in percentage by weight: 0.15-0.25% of nano-silver, 0.15-0.25% of sweet osmanthus extract, 0.4-0.6% of yun nut powder, 4-6% of sodium hydroxide, 4-6% of palm oil, 14-16% of coconut oil, 14-16% of cane sugar and 58.6-59.6% of water, wherein the sum of the weight percentages of all the components is 100%. The preparation method of the nano-silver antibacterial composite perfumed soap adopts the traditional process to replace the modern process, the preparation process is simple and environment-friendly, and the product has the effects of resisting bacteria and diminishing inflammation, promoting wound healing, reducing scar formation, keeping skin active and beautifying skin.

Description

Nano-silver antibacterial composite perfumed soap and preparation method thereof

Technical Field

The invention relates to the technical field of daily washing, in particular to a nano-silver antibacterial composite perfumed soap and a preparation method thereof.

Background

The washing articles are necessary for daily life of people, and along with the continuous improvement of the living standard of people, the product types are continuously increased and gradually develop towards the directions of environmental protection, functionalization, specialization and serialization. The washing added value is that on the basis of decontamination, some additional functions such as antibiosis, antiphlogosis, smoothness, static prevention, color protection, lasting fragrance and the like are integrated according to the requirements of different consumers, so that when the consumers wash, various functions are completed at one time, the effects of saving time, labor, electricity and water are achieved, and the social development trend that the life rhythm is accelerated continuously is met. Therefore, on the premise of firstly ensuring the price and the washing performance of the washing and caring product, the washing and caring product can continuously obtain the approval of consumers by adding other additional functions, and becomes the first choice of the household washing and caring product.

Soap is a fatty acid salt obtained by saponification or neutralization reaction of oil, wax, rosin, fatty acid or the like and alkali, and in the conventional soap production process, vegetable higher stearic acid or oil such as coconut oil, palm oil or the like is mostly used. The nano silver is a metal silver simple substance with the particle size of nano level, the particle size is mostly about 25 nm, and the nano silver has the characteristics of strong sterilization, restoration and regeneration, broad-spectrum sterilization, strong permeability, durability and no drug resistance. The raw material of the osmanthus fragrans extract is not commonly used in beauty cosmetics, probably because most osmanthus fragrans flowers are used in food, the osmanthus fragrans extracts contain many kinds of polyphenol with a few contents, according to some foreign analysis and research, the polyphenol content in the osmanthus fragrans flowers is not much less than that in tea, the antioxidant effect of the osmanthus fragrans extract is more than that in tea extraction, the efficacy of the osmanthus fragrans extract on skin is mainly in the aspects of oxidation resistance and aging prevention, and the functions are related to diversified polyphenol components contained in the osmanthus fragrans.

At present, the soap with functions of decontamination, antibiosis, scar repair, skin vitality maintenance, skin care and the like is further processed by adding the nano silver and the osmanthus fragrans extracts into the soap base, and reports are not yet found, so that a new product is needed to be invented to open up the market.

Disclosure of Invention

The invention aims to provide the nano-silver antibacterial compound soap which has strong dirt-removing power, soft touch and strong hard water resistance compared with the existing common soap, has the effects of resisting bacteria and diminishing inflammation, promoting wound healing, reducing scar generation, keeping skin active, and beautifying skin, is prepared by adopting the traditional process, is green and environment-friendly, and has wide market prospect.

The technical scheme is realized as follows:

the invention discloses a nano-silver antibacterial composite perfumed soap which is prepared from the following raw materials in percentage by weight: 0.15-0.25% of nano-silver, 0.15-0.25% of sweet osmanthus extract, 0.4-0.6% of yun nut powder, 4-6% of sodium hydroxide, 4-6% of palm oil, 14-16% of coconut oil, 14-16% of cane sugar and 58.6-59.6% of water, wherein the sum of the weight percentages of all the components is 100%.

The invention discloses a preparation method of nano-silver antibacterial composite soap, which comprises the following steps:

s1, material preparation: preparing materials according to a formula table;

s2, mixing and stirring: sequentially adding water, sucrose, coconut oil, palm oil, sodium hydroxide, yunjin powder, sweet osmanthus extract and nano-silver raw materials into a stirrer and stirring for 4 hours;

s3, filling a mold and cooling: filtering the stirred mixture by a filter screen, filling the soap model with the mixture, and cooling the soap model for 4 hours under natural conditions to form a soap initial material;

s4, demolding: stripping the cooled soap initial material from the soap model;

s5, soap cutting: cutting the soap initial material according to the specification to form a soap blank;

s6, drying in the shade: arranging the soap blanks on a drying rack in a drying room in sequence, and keeping the drying time for 120 hours;

s7, curing: naturally storing and curing the soap blank dried in the shade for 1080 hours to form a semi-finished soap product;

s8, manually pressing soap: pressurizing and molding the semi-finished soap product into a finished soap product;

s9, packaging: and packaging the finished soap product.

The nano-silver antibacterial composite perfumed soap and the preparation method thereof have the following beneficial technical effects:

the preparation method of the nano-silver antibacterial composite perfumed soap adopts the traditional process to replace the modern process, the preparation process is simple and environment-friendly, and the product has the effects of resisting bacteria and diminishing inflammation, promoting wound healing, reducing scar formation, keeping skin active and beautifying skin.

Detailed Description

The present invention will be described in further detail with reference to the following examples, but the scope of the present invention is not limited thereto.

All percentages are by weight herein, unless otherwise specifically stated.

In the first embodiment, the first step is,

the invention discloses a nano-silver antibacterial composite perfumed soap which is prepared from the following raw materials in percentage by weight: 0.15% of nano silver, 0.15% of sweet osmanthus extract, 0.4% of yun nut powder, 4% of sodium hydroxide, 6% of palm oil, 14% of coconut oil, 16% of cane sugar and 59.3% of water, wherein the sum of the weight percentages of all the components is 100%.

The preparation method of the nano-silver antibacterial composite soap comprises the following specific steps:

s1, material preparation: preparing raw materials according to a formula table, wherein the raw materials account for 60Kg in total weight;

s2, mixing and stirring: adding 35.58Kg of water, 9.6Kg of sucrose, 8.4Kg of coconut oil, 3.6Kg of palm oil, 2.4Kg of sodium hydroxide, 240g of Yunji powder, 90g of osmanthus fragrans extract and 90g of nano-silver raw material into a stirrer in sequence and stirring for 4 hours;

s3, filling a mold and cooling: filtering the stirred mixture by a filter screen, filling the soap model with the mixture, and cooling the soap model for 4 hours under natural conditions to form a soap initial material;

s4, demolding: stripping the cooled soap initial material from the soap model;

s5, soap cutting: cutting the soap initial material according to the specification to form a soap blank;

s6, drying in the shade: arranging the soap blanks on a drying rack in a drying room in sequence, and keeping the drying time for 120 hours;

s7, curing: naturally storing and curing the soap blank dried in the shade for 1080 hours to form a semi-finished soap product;

s8, manually pressing soap: pressurizing and molding the semi-finished soap product into a finished soap product;

s9, packaging: and packaging the finished soap product.

In the second embodiment, the first embodiment of the method,

the invention discloses a nano-silver antibacterial composite perfumed soap which is prepared from the following raw materials in percentage by weight: 0.2% of nano silver, 0.2% of sweet osmanthus extract, 0.5% of yun nut powder, 5% of sodium hydroxide, 5% of palm oil, 15% of coconut oil, 15% of sucrose and 59.1% of water, wherein the sum of the weight percentages of all the components is 100%.

The preparation method of the nano-silver antibacterial composite soap comprises the following specific steps:

s1, material preparation: preparing 50Kg of raw materials according to the total weight and the formula table;

s2, mixing and stirring: adding 29.55Kg of water, 7.5Kg of sucrose, 7.5Kg of coconut oil, 2.5Kg of palm oil, 2.5Kg of sodium hydroxide, 250g of Yunji powder, 100g of osmanthus fragrans extract and 100g of nano-silver raw material into a stirrer in sequence and stirring for 4 hours;

s3, filling a mold and cooling: filtering the stirred mixture by a filter screen, filling the soap model with the mixture, and cooling the soap model for 4 hours under natural conditions to form a soap initial material;

s4, demolding: stripping the cooled soap initial material from the soap model;

s5, soap cutting: cutting the soap initial material according to the specification to form a soap blank;

s6, drying in the shade: arranging the soap blanks on a drying rack in a drying room in sequence, and keeping the drying time for 120 hours;

s7, curing: naturally storing and curing the soap blank dried in the shade for 1080 hours to form a semi-finished soap product;

s8, manually pressing soap: pressurizing and molding the semi-finished soap product into a finished soap product;

s9, packaging: and packaging the finished soap product.

In the third embodiment, the first step is that,

the invention discloses a nano-silver antibacterial composite perfumed soap which is prepared from the following raw materials in percentage by weight: 0.25% of nano-silver, 0.25% of sweet osmanthus extract, 0.6% of yun nut powder, 6% of sodium hydroxide, 4% of palm oil, 16% of coconut oil, 14% of cane sugar and 58.9% of water, wherein the sum of the weight percentages of all the components is 100%.

The preparation method of the nano-silver antibacterial composite soap comprises the following specific steps:

s1, material preparation: preparing 40Kg of raw materials according to the total weight and the formula table;

s2, mixing and stirring: adding 23.56Kg of water, 5.6Kg of sucrose, 6.4Kg of coconut oil, 1.6Kg of palm oil, 2.4Kg of sodium hydroxide, 240g of Yunji powder, 100g of sweet osmanthus extract and 100Kg of nano-silver raw material into a stirrer in sequence and stirring for 4 hours;

s3, filling a mold and cooling: filtering the stirred mixture by a filter screen, filling the soap model with the mixture, and cooling the soap model for 4 hours under natural conditions to form a soap initial material;

s4, demolding: stripping the cooled soap initial material from the soap model;

s5, soap cutting: cutting the soap initial material according to the specification to form a soap blank;

s6, drying in the shade: arranging the soap blanks on a drying rack in a drying room in sequence, and keeping the drying time for 120 hours;

s7, curing: naturally storing and curing the soap blank dried in the shade for 1080 hours to form a semi-finished soap product;

s8, manually pressing soap: pressurizing and molding the semi-finished soap product into a finished soap product;

s9, packaging: and packaging the finished soap product.

The nano-silver antibacterial composite perfumed soap and the preparation method thereof have the following beneficial technical effects:

the preparation method of the nano-silver antibacterial composite perfumed soap adopts the traditional process to replace the modern process, the preparation process is simple and environment-friendly, and the product has the effects of resisting bacteria and diminishing inflammation, promoting wound healing, reducing scar formation, keeping skin active and beautifying skin.

Claims (2)

1. The antibacterial nano-silver compound soap is characterized by comprising the following raw materials in percentage by weight: 0.15-0.25% of nano-silver, 0.15-0.25% of sweet osmanthus extract, 0.4-0.6% of yun nut powder, 4-6% of sodium hydroxide, 4-6% of palm oil, 14-16% of coconut oil, 14-16% of cane sugar and 58.6-59.6% of water, wherein the sum of the weight percentages of all the components is 100%.

2. The preparation method for manufacturing the nano-silver antibacterial composite soap as claimed in claim 1 is characterized by comprising the following steps:

s1, material preparation: preparing materials according to a formula table;

s2, mixing and stirring: sequentially adding water, sucrose, coconut oil, palm oil, sodium hydroxide, yunjin powder, sweet osmanthus extract and nano-silver raw materials into a stirrer and stirring for 4 hours;

s3, filling a mold and cooling: filtering the stirred mixture by a filter screen, filling the soap model with the mixture, and cooling the soap model for 4 hours under natural conditions to form a soap initial material;

s4, demolding: stripping the cooled soap initial material from the soap model;

s5, soap cutting: cutting the soap initial material according to the specification to form a soap blank;

s6, drying in the shade: arranging the soap blanks on a drying rack in a drying room in sequence, and keeping the drying time for 120 hours;

s7, curing: naturally storing and curing the soap blank dried in the shade for 1080 hours to form a semi-finished soap product;

s8, manually pressing soap: pressurizing and molding the semi-finished soap product into a finished soap product;

s9, packaging: and packaging the finished soap product.