KR20030062601A - The Dyeing of Antiviotic Socks Using Zinc Oxice and Silver - Google Patents

Abstract

PURPOSE: A dyeing method of antibacterial socks using zinc oxide and silver is capable of having deodorizing effect, preventing athlete's foot and eczema and expressing soft color. CONSTITUTION: The dyeing method of the antibacterial socks comprises the steps of: mixing 100g of zinc oxide and 100g of silver powder; putting the mixture into a dissolving bath, followed by dissolving the mixture; synthesizing 50ml of hydrochloric acid and 150ml of nitric acid; heating the dissolving bath; dissolving 100g of tin chloride into 1000ml of a caustic soda solution(PH12); neutralizing a silver salt into PH7.5; putting 3000ml of water, followed by stirring the mixture to make an antibacterial dyeing catalyst; dissolving 50g of sulfate of soda into 1000ml of the caustic soda to make an alkali catalyst; dissolving 50g of emulsified soda into 1000ml of water to make a reducing agent; dipping the socks into the silver salt for 10minutes, followed by dewatering the socks; putting the socks into the catalyst for 10minutes; and then washing, dewatering and drying the socks.

Description

Preparation of antimicrobial socks dyeing using zinc oxide and silver {The Dyeing of Antiviotic Socks Using Zinc Oxice and Silver}

The present invention relates to the production of antimicrobial powder dyeing using zinc and silver. 100g of zinc oxide and 100g of silver powder obtained by pulverizing silver particles are put into a dissolution tank and synthesized 50ml of salt and 150ml of nitric acid while being heated. To dissolve the silver while slowly adding to the dissolution tank. To neutralize the silver solution, add caustic soda solution and blow the nitrous acid cutlet to pH 7.5 to dissolve 100 g of tin chloride in 1000 ml of water and mix with silver salt to make a silver salt solution. In addition, 100 g of forget-me-not is dissolved in 1000 ml of water, and caustic soda ph12 is used to make a tentative alkali catalyst. 50 g of sodium sulfate is added to 1000 ml of water to dissolve to form a reducing agent. As described above, an antimicrobial dye is prepared by making a silver salt solution and also a catalyst and a reducing agent. And look at the use of the antimicrobial dyes are as follows. Socks to be antibacterial dehydrated by immersion in silver salt solution for 10 minutes, and then immersed in a crosslinking agent for 10 minutes. When the complexed socks are immersed in a reducing agent for 10 minutes, the brown color becomes gray. Washing and drying the socks is a method of completing the antibacterial socks dyeing of the present invention.

Looking at the antimicrobial dye production method in detail.

In the present invention, the first use of silver (아연) and zinc as an antimicrobial dye, zinc and silver (항균) is an antibacterial metal is excellent antibacterial activity. Among them, silver is highly regarded as an antibacterial metal, and it has been reported that all germs or myruses on the ground survive for 6 minutes by contact with silver. In addition, zinc oxide is highly safe and non-toxic, and it is widely used in children's sweat bands and cosmetics, and the use of nitric acid and hydrochloric acid while dissolving them as an antimicrobial carrier makes silver and zinc not only soluble in nitric acid but also nitric acid. When dissolved in combination with silver, the penetration is very good, and zinc oxide is also soluble in acids and alkalis. The silver salt is synthesized with tin chloride, nitrate, zinc oxide, and alkali salts, so that it is well dissolved in water. In addition, 1,000 ml of forget-me-not and alkaline solution (PH12) were used as a catalyst and the catalyst was used as a catalyst to immerse silver salt in socks. The sock is immersed in silver salt for 10 minutes, dehydrated and immersed in an alkaline solution as a catalyst. This is because silver binds with alkali and silver is ionized with Ag +, soaked in socks, and the color is changed by the toxicity of alkaline solution. It is found that the color changes when the complexed socks are dehydrated and left as is. This is characterized in that silver salt is blackened or denatured in sunlight chlorine, fluorine compound and the like. In the present invention, the color immersed in caustic soda is made of a reducing agent which is a solution dissolved by adding 50 g of sodium sulphate in 1000 ml of water in order to prevent change and fixation. Found. It was confirmed that the color was different depending on the amount of solids of silver salt and the amount of chlorine, such as caustic soda PH and forget-me-not of the catalyst, and also the color was changed depending on the time of soaking the socks and the color was different depending on the type of catalyst and reducing agent. In addition, when antibacterial dyeing of socks made of natural fibers and chemical fibers under the same conditions, it is confirmed that the target is different. Silver antibacterial staining of the present invention was confirmed to be complex salt irrespective of hot water and cold water and the degree of washing was 2 degrees as a result of the test tester. In addition, it is natural and soft color like indigo dye and washes invisibly and water is not repulsed like wearing new socks at all times, and foot does not smell at all and antibacterial effect is semipermanent.

Looking at the existing antibacterial socks, there is an antibacterial socks made of synthetically pulverized silver powder into a fiber material to make socks, and antibacterial socks, which are made by mixing chitosan or silver with a resin and adhering to the socks. It is synthesized with palladium and soaked in socks and marketed as an antibacterial agent. There are many differences from the technique of antibacterial dyeing on socks using silver salt as in the present invention.

As described above, the present invention is a technique for fixing silver and salt of antibacterial effect on socks without using any resin while making silver salt using zinc oxide and silver as an antimicrobial medium.

This technique uses the properties of blacking or anti-singing when silver salts are combined with sunlight or halogen compounds without the use of dyes at all, and when silver salts are combined with poisonous caustic soda solution while ionizing silver into socks. The inventors found that the color becomes oxidized in the sun as it becomes a color, so that the simple socks are soaked in the silver salt solution for antimicrobial dyeing to prevent oxidized and resisted properties in the sun. Invented the technology. The antimicrobial dyed socks are dyed at a degree of about 3 degrees and are not easily visible by washing, etc., which is a method of simultaneously dyeing socks with antibacterial natural and soft colors not found in conventional dyes.

Socks antimicrobial dyeing method of the present invention as described above is different in color and antimicrobial power depending on the amount and ph of the solid content of the antimicrobial metal and the catalyst in the silver salt solution. In addition, there is a close relationship between the solid content of the reducing agent and the color, so developing a kind of catalyst and reducing agent can find an antimicrobial dyeing design in which several colors are not currently found in the socks color.

Looking at the configuration of the present invention. First, 100g of zinc oxide and 100g of finely pulverized powder of silver are pulverized in a dissolution tank, and 50ml of hydrochloric acid and 150ml of nitric acid are mixed in a dissolution tank to slowly dissolve zinc and silver. Also, to neutralize the silver solution, the caustic nitrite is blown off while adding caustic soda solution to PH7.5. 100 g of tin chloride is dissolved in 1000 ml of water and added to the neutralized silver salt to prepare a silver salt solution. Also, 50 g of forget-me-not is dissolved in 1000 ml of water to make a catalyst. Then, to make a reducing agent, 50 g of sodium sulfate is dissolved in 1000 ml of water to prepare an antimicrobial socks dye. In order to antibacterial dyeing of the socks on the antimicrobial dye, a pair of square socks were immersed in silver salt solution for 10 minutes and then dehydrated. To complete the socks dyeing production of the antimicrobial socks dyeing of the present invention will be described in more detail in the Examples.

Example 1

Manufacture of silver salt antibacterial agent and sock dyeing catalyst

1st process

100 g of zinc oxide and 100 g of powder obtained by grinding and pulverizing silver are quantified.

2nd process

50 ml of hydrochloric acid and 150 ml of nitric acid are mixed and quantified.

3rd process

Prepare a 1000 ml capacity of the dissolution tank and prepare a simple device that can draw gas over the dissolution tank while preparing it for heat.

4th process

Dissolve 100 g of tin chloride in 1000 ml of caustic soda solution (ph12) and quantify it.

5th process

50 g of forget-me-not is dissolved in 1000 ml of caustic soda solution (ph12) to form a tentative alkali catalyst.

6th process

Dissolve 50 g of sodium sulfate in 1000 ml of water to make a reducing agent.

7th process

The chemicals in the first process are added to the dissolution tank in the third process and the silver is dissolved while gradually adding the chemicals in the second process.

8th process

Neutralizing the chemicals of the seventh step while gradually adding the alkaline solution of the eighth step to the seventh step, nitrous acid cutlet is generated, dissolving 3000 ml of water to PH7.5 while blowing the gas to make the antimicrobial dye of the present invention. .

Example 2

Antibacterial Sock Dyeing Method

1st process

Get a pair of socks ready.

2nd process

Example 1 1000 ml of the silver salt solution of the eighth step was quantified.

3rd process

1000 ml of the 5th process catalysts of Example 1 were prepared.

4th process

1000 ml of 6th process reducing agents of Example 1 is prepared quantitatively.

5th process

The socks of the first step are immersed in the solution of the second step for 10 minutes and dehydrated.

6th process

The socks of the fourth step are immersed in the catalyst of the second step for 10 minutes to be dehydrated.

7th process

The socks of the fifth step were immersed in the reducing agent of the third step for 10 minutes to be dehydrated and washed to complete the antimicrobial socks dyeing production using the zinc oxide of the present invention.

Antimicrobial socks dyeing using silver salt in the present invention has excellent antibacterial effect when worn, as well as deodorant effect, athlete's foot, eczema is prevented and can be obtained a soft natural socks color not found in conventional socks dyeing.

Claims (1)

Synthesize 100 g of zinc oxide and 100 g of silver powder, dissolve it in a dissolving tank, dissolve 50 ml of hydrochloric acid and 150 ml of nitric acid while dissolving ds while heating the dissolving tank to dissolve 100 g of tin chloride in 1000 ml of caustic soda solution (PH12). Neutralize to pH7.5 and add 3000ml of water to make antimicrobial dyeing catalyst.Also, 50g of forget-me-notd solution (PH12) is dissolved in caustic soda solution (PH12) with alkaline catalyst, and 50g of soda emulsion is dissolved in 1000ml of water to make reducing agent. Soaking socks for 10 minutes in silver salt, dehydrating, putting them in catalyst for 10 minutes