KR102660765B1 - Manufacturing method of an antimicrobial menstrual cup and the menstrual cup manufactured thereby - Google Patents

Abstract

The present invention prepares a silicone-based antibacterial composition by compounding two types of antibacterial agents, and manufactures a menstrual cup with this antibacterial composition, so that the antibacterial agent can be evenly distributed throughout the silicone constituting the menstrual cup while maintaining a certain level of antibacterial activity. A manufacturing method of an antibacterial menstrual cup that effectively prevents vaginal infection caused by harmful bacteria that may occur during the use of a menstrual cup and prevents cross-infection due to wounds on the vaginal mucosa, and a method manufactured by the method. Provide antibacterial menstrual cups.

Description

Manufacturing method of an antibacterial menstrual cup and an antibacterial menstrual cup manufactured by the method {MANUFACTURING METHOD OF AN ANTIMICROBIAL MENSTRUAL CUP AND THE MENSTRUAL CUP MANUFACTURED THEREBY}

The present invention relates to a method for manufacturing an antibacterial menstrual cup and an antibacterial menstrual cup manufactured by the method. More specifically, it relates to preparing a silicone-based antibacterial composition by compounding two types of antibacterial agents, and using this antibacterial composition to prepare a menstrual cup. By manufacturing it, it maintains a certain level of antibacterial activity and allows the antibacterial agent to be evenly distributed throughout the silicone that makes up the menstrual cup, effectively preventing vaginal infections caused by harmful bacteria that may occur during the process of using the menstrual cup and protecting the vaginal mucosa. It relates to a method of manufacturing an antibacterial menstrual cup that can prevent cross-infection due to wounds, and an antibacterial menstrual cup manufactured by the method.

When applying an antibacterial agent to a silicone-based material, if the antibacterial ingredient is in the form of a powder with large particles, the silicone is also in the form of a soft lump, so there is a problem in that the antibacterial ingredient is not evenly distributed on the silicone.

Additionally, there is a menstrual cup, which is a sanitary product inserted into a woman's vagina and requires high antibacterial and hygienic properties.

Conventional menstrual cups have the problem of causing abdominal pain, endometriosis, and various diseases due to reflux of menstrual blood. Accordingly, in order to solve this problem, some menstrual cups manufactured to have antibacterial properties have been disclosed.

However, menstrual cups are generally manufactured using silicone. As explained earlier, silicone is in the form of a squishy lump, so when an antibacterial ingredient in powder form is applied to this lump-shaped silicone, the antibacterial ingredient is applied to the surface of the silicone. Because it is difficult to distribute evenly, menstrual cups manufactured using conventional manufacturing methods inevitably have a partial decrease in antibacterial activity even if they contain antibacterial agents, which reduces the value of the product.

On the other hand, when a conventional menstrual cup is made of an antibacterial agent with large particles, the antibacterial ingredient forms protrusions on the surface of the menstrual cup, and these protrusions irritate the inside of the vagina where the menstrual cup is mounted, causing discomfort during use or, in severe cases, vaginal discharge. It causes problems that cause my hurt.

Domestic Patent Registration No. 10-1915316

The present invention was developed in consideration of the above conventional problems, and its purpose is to provide a method of manufacturing an antibacterial menstrual cup that has excellent antibacterial properties and can be manufactured with the antibacterial agent evenly dispersed throughout.

Another object of the present invention is to provide an antibacterial menstrual cup manufactured by the above manufacturing method, which can effectively prevent the occurrence of abdominal pain, endometriosis, and various diseases caused by reflux of menstrual blood. there is.

One aspect of the present invention includes the steps of coating nano-copper powder with lecithin to prepare an antibacterial powder with a coating film formed on the surface; Preparing a liquid first material by mixing silicone oil with the antibacterial powder; Preparing a first mixture by adding a silicone rubber to the first material and performing primary kneading; Mixing silver ion powder of 100 nm or less with a dispersant and then further mixing silicone oil to prepare a second liquid material; Adding the second material to the first mixture and performing secondary kneading to prepare a second mixture; and molding the second mixture to prepare a menstrual cup; It provides a method for producing an antibacterial silicone composition comprising.

According to a preferred feature of the present invention, the first material includes 0.1 to 0.5 parts by weight of the nano-copper powder and 0.01 to 0.05 parts by weight of the lecithin based on 100 parts by weight of the silicone oil, and the second material includes the silicone. The oil includes 0.1 to 0.5 parts by weight of the silver ion powder and 0.01 to 0.05 parts by weight of the dispersant, and the mixing ratio of the first material and the silicone rubber is 100 parts by weight of the first material. may be included in an amount of 0.1 to 1.0 parts by weight, and the mixing ratio of the first mixture and the second material may be such that the second material is included in an amount of 100 to 1000 parts by weight based on 100 parts by weight of the first mixture.

According to a preferred feature of the present invention, tea tree oil, Houttuynia cordata, rice bran, green tea, and mugwort materials can be further mixed with the first mixture before secondary kneading.

Another aspect of the present invention provides a menstrual cup manufactured using the antibacterial silicone composition manufactured by the above manufacturing method.

The antibacterial menstrual cup manufactured according to an embodiment of the present invention is manufactured by sequentially compounding first and second antibacterial agents with different particle sizes and different properties in silicone rubber, thereby having excellent antibacterial properties and the antibacterial agent being made of silicone. It is evenly distributed throughout the rubber, which has the effect of ensuring that the menstrual cup has even antibacterial properties throughout.

In addition, the menstrual cup manufactured in this way has the effect of preventing the occurrence of abdominal pain, endometriosis, and various diseases caused by reflux of menstrual blood.

Figure 1 is a flow chart showing a method of manufacturing an antibacterial menstrual cup according to an embodiment of the present invention.
Figure 2 is a material safety data sheet for silicone oil used in manufacturing the composition that is the material for the antibacterial menstrual cup of Figure 1.
Figure 3 is a photograph of an antibacterial menstrual cup manufactured by the manufacturing method of Figure 1.

Hereinafter, preferred embodiments of the present invention will be described with reference to the attached drawings. However, the embodiments of the present invention may be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below.

In addition, 'including' a certain element throughout the specification means that other elements may be further included rather than excluding other elements, unless specifically stated to the contrary.

Figure 1 is a flow chart showing a method of manufacturing an antibacterial menstrual cup according to an embodiment of the present invention.

Referring to Figure 1, the antibacterial menstrual cup manufactured according to an embodiment of the present invention is manufactured using a compounding method. First, a first material has excellent antibacterial activity and the antibacterial activity is lower than the first material. However, the second material with relatively high dispersibility is prepared through the process below.

In addition, in order to prepare the first material, the first antibacterial agent, which is a base antibacterial agent, is first soaked in lecithin to coat the surface of the first antibacterial agent, and an antibacterial powder with a coating film formed on the surface is prepared (S10).

At this time, the first antibacterial agent may preferably be nano-copper powder, and the lecithin serves to cover and soften the hard surface of the nano-copper powder. Preferably, the nano-copper powder and silicon are used when preparing the first material to be described later. It has the effect of increasing the binding force of oil.

The nano-copper powder is a low-cost material that provides excellent antibacterial properties.

The antibacterial powder prepared in this way has high antibacterial activity due to the nature of nano-copper, but since the particle size is not so fine, it may not be distributed evenly when kneaded with the silicone rubber, which will be described later, and may cause a problem of not providing antibacterial activity evenly throughout the silicone rubber. This problem is solved by a second antibacterial agent made of a second material, which will be described later.

Next, silicone oil is mixed with the antibacterial powder and a liquid first material is prepared using, for example, a three-stage roller device (S20).

The silicone oil is a medical silicone oil, and Dow Chemical Company's 'Xiameter Silanol Fulid' shown in Figure 2 can be preferably used.

After mixing the second antibacterial agent, which is an auxiliary antibacterial agent, with the dispersant, silicone oil is further mixed and a second liquid material is prepared using a three-stage roller device (S40). At this time, the silicone oil may be the same as that used when preparing the first material.

Additionally, the second antibacterial agent may be silver ion powder. The silver ion powder is a fine particle of 100 nm or less and has relatively low antibacterial activity compared to nano-copper powder, which is the first antibacterial agent, but has excellent dispersion properties.

Additionally, the dispersant may be polycarboxylic or polyamine-based, but the present invention is not limited thereto. The dispersant serves to improve antibacterial activity by increasing the dispersion power of the antibacterial ingredient in the antibacterial silicone composition prepared by the manufacturing method of the present invention.

Then, a silicone rubber is added to the previously prepared first material and first kneaded at least 10 times to prepare a first mixture with nano-copper attached to the surface of the silicone rubber (S30).

Next, add the second material previously prepared to the first mixture and knead the second mixture at least 10 times to prepare a second mixture as an antibacterial silicone composition with silver ions attached to the surface of the silicone rubber along with nano-copper (S50). .

In the present invention, first and second materials are prepared using two types of antibacterial agents, and the first and second materials are mixed with silicone rubber in a prescribed order to prepare a second mixture, which is an antibacterial silicone composition. do.

The silicone rubber, which is the base material in the second mixture, which is the antibacterial silicone composition of an embodiment of the present invention, is a soft lump, and the nanocopper powder, which is the first antibacterial agent that serves to provide antibacterial properties in the first material, is also fine, but has a certain amount. Since it is in the form of a particle-like powder with a size of , there are limitations in distributing the nano-copper powder evenly when mixing it with silicone rubber. Accordingly, the nano-copper powder causes problems such as local clumps when kneaded with silicone rubber or uneven antibacterial properties of the second mixture, such as the appearance of areas that cannot be applied locally.

In addition, silver ion powder, which is a second antibacterial agent that plays a role in providing antibacterial properties in the second material, is in the form of ultra-fine ionic powder with a relatively finer size than nano-copper powder, so silicone rubber can be applied only with this silver ion powder. If you do this, the distribution of the antibacterial agent will be better than when using nano-copper powder, but due to the nature of silver ions, there will be a limit to increasing the antibacterial effect compared to nano-copper powder. In addition, silver (Ag) is a more expensive material than copper (Cu), and if a large amount of silver ion powder is used when manufacturing a composition, the manufacturing cost of the product increases accordingly.

Considering this, in one embodiment of the present invention, a first mixture is prepared by first training a silicone rubber with a first material containing nano-copper powder, and then more than the nano-copper powder is added to the first mixture. By secondary kneading the second material containing small particles of silver ion powder to prepare the second mixture, the silver ion powder of the second material is applied as evenly as possible to the surface of the silicone rubber, and the nano-copper powder from the first mixture is applied as evenly as possible. By covering the areas where the application was not performed properly, the effect of greatly improving the distribution of the antibacterial agent in the second mixture and securing the antibacterial activity above a certain level can be expected.

Meanwhile, in order to maximize the functionality of the second mixture, which is the antibacterial silicone composition of the present invention, the mixing ratio of the antibacterial silicone composition of one embodiment described above can be adjusted.

Specifically, the first material may include 0.1 to 0.5 parts by weight of the nano-copper powder and 0.01 to 0.05 parts by weight of the lecithin based on 100 parts by weight of the silicone oil.

If the content of the nano-copper powder exceeds 0.5 parts by weight, a problem may occur in which some of the nano-copper powder does not dissolve into liquid and remains in a solid state, and if the content of the nano-copper powder is less than 0.1 parts by weight, the antibacterial effect is not properly implemented. Problems may arise.

In addition, if the lecithin content is less than 0.01 parts by weight, a problem may occur in which some of the nano-copper powder cannot be combined with silicone oil, and if the lecithin content exceeds 0.05 parts by weight, the cost may only increase without significant effect. there is.

The second material may include 0.1 to 0.5 parts by weight of the silver ion powder and 0.01 to 0.05 parts by weight of the dispersant based on 100 parts by weight of the silicone oil.

If the content of the silver ion powder exceeds 0.5 parts by weight, a problem may occur in which some of the silver ion powder does not dissolve into liquid but remains in a solid state, and if the content of the silver ion powder is less than 0.1 part by weight, the antibacterial effect is not properly implemented. Problems may arise.

In addition, the mixing ratio of the first material and the silicone rubber may be such that the silicone rubber is included in an amount of 0.1 to 1.0 parts by weight based on 100 parts by weight of the first material. If the silicone rubber exceeds 1.0 parts by weight, a problem of unmixing the mixture may occur, and if the silicone rubber contains less than 0.1 parts by weight, a problem may occur in which antibacterial activity is not properly implemented.

Additionally, the mixing ratio of the first mixture and the second material may be such that 100 to 1000 parts by weight of the second material is included based on 100 parts by weight of the first mixture. If the mixing ratio of the second material exceeds 1000 parts by weight, a problem may occur where the materials do not come together and unravel, and if the mixing ratio of the second material is less than 100 parts by weight, the antibacterial activity of the second mixture may not be properly implemented. Problems may arise.

And, as another example, tea tree oil, Houttuynia cordata, rice bran, green tea, and mugwort may be added to the first mixture before secondary kneading.

The tea tree oil is currently used as a disinfectant and treatment for Australian natives, and the tea tree oil applied in the present invention is a biocompatible, EWG grade 1 eco-friendly ingredient that can improve the antibacterial, anti-inflammatory and antiviral properties of the composition of the present invention. there is.

In addition, the Houttuynia cordata is an ingredient that has antibacterial, anti-inflammatory, detox and skin regeneration effects, the rice bran can provide antipruritic, vaginal visceral wall strengthening, harmful free radical removal, anticancer and immune strengthening effects, and the green tea It can eliminate the effects of antibacterial, anti-allergic, anti-odor and trouble improvement, and mugwort can provide anti-irritating, anti-inflammatory, soothing and anti-aging functions.

In addition, the antibacterial silicone composition prepared in this way can be used as a material for various products. In particular, by molding the antibacterial silicone composition into a designed shape, a menstrual cup with excellent antibacterial properties as shown in FIG. 3 can be manufactured (S60). The antibacterial menstrual cup manufactured in this way not only provides basic antibacterial functions, but can also implement complex functions such as excellent antiviral properties, excellent immunity, and prevention of vaginitis.

Meanwhile, the antibacterial silicone composition that is used as a material for these menstrual cups contains nano-copper powder with large particle size as its main antibacterial ingredient, and when molding the menstrual cup, the nano-copper powder may protrude onto the surface of the menstrual cup and form fine protrusions. .

Since a menstrual cup is a sanitary product used in sensitive areas, the protrusions formed in this way may irritate the inside of the vagina where the menstrual cup is installed, causing discomfort during use or, in severe cases, causing vaginal injury.

To solve this problem, in one embodiment, when preparing the antibacterial powder as the first material when manufacturing the antibacterial silicone composition, nano-copper powder is coated with lecithin to produce an antibacterial powder with a soft coating film formed on the surface. Even though there are cases where protrusions are formed on the surface of the menstrual cup due to the nano-copper powder, which has relatively large particles compared to silver ion powder, the coating film causes these protrusions to irritate the inside of the vagina where the menstrual cup is installed, causing discomfort during use or, in severe cases, vaginal irritation. It plays a role in preventing problems that cause injuries.

The present invention will be described in more detail below through a test example. These test examples are intended to illustrate the present invention in more detail, and the scope of the present invention is not limited by the content disclosed in the test examples.

<Skin sensitization test>

In order to test the skin sensitization of the second mixture, which is an antibacterial silicone composition prepared according to the present invention, the second mixture prepared according to an embodiment of the present invention was used as a sample to measure skin sensitization to guinea pigs by the maximum value method. Tested.

The sample contains 0.3 parts by weight of nano-copper powder, 0.03 parts by weight of lecithin, 0.3 parts by weight of silver ion powder, and 0.03 parts by weight of a dispersant, based on 100 parts by weight of silicone oil, and the content of silicone rubber relative to the first material is 0.5 parts by weight. and the content of the second material relative to the first mixture is 100 parts by weight.

As a sensitization induction treatment, a 10 w/w% olive oil suspension of the sample was injected intradermally into 10 test animals, and after one week, a mixture of 10% vaseline of the sample was applied to all samples for 48 hours to induce sensitization.

And, as a result of observation, no skin reaction was observed in any of the samples not only after 48 hours but also after 72 hours. Accordingly, it can be confirmed that the sample of the present invention does not cause skin sensitization.

<Skin irritation test>

In order to test the skin irritation of the second mixture, which is an antibacterial silicone composition prepared according to the present invention, a skin irritation test was performed on rabbits in accordance with OECD Guidelines for Testing of Chemicals 404 using the sample used in the skin sensitization test previously. did.

At this time, the specimens were occluded in three rabbits without wounds and three rabbits with wounds for 4 hours each. As a result, very mild erythema appeared in all samples starting 1 hour after sample removal, but this erythema disappeared within 72 hours. Therefore, in this skin irritation test using rabbits, the sample of the present invention can be evaluated as falling into the category of 'mild irritation'.

According to these experimental results, the menstrual cup made with the antibacterial silicone composition of the present invention has been clinically verified, as can be seen from the skin sensitization test and skin irritation test results listed above, and is safe and hygienic when applied to various household products. In addition, it can be seen that functional fidelity can be guaranteed.

The present invention is not limited by the above-described embodiments and attached drawings, but is intended to be limited by the appended claims. Accordingly, various forms of substitution, modification, and change may be made by those skilled in the art without departing from the technical spirit of the present invention as set forth in the claims, and this also falls within the scope of the present invention. something to do.

S10: Antibacterial powder preparation step
S20: First material preparation step
S30: First mixture preparation step
S40: Second material preparation step
S50: Second mixture preparation step
S60: Steps to prepare a menstrual cup

Claims (4)

Preparing an antibacterial powder with a coating film formed on the surface by coating nano-copper powder with lecithin;
Preparing a liquid first material by mixing silicone oil with the antibacterial powder;
Preparing a first mixture by adding a silicone rubber to the first material and performing primary kneading;
Mixing silver ion powder of 100 nm or less with a dispersant and then further mixing silicone oil to prepare a second liquid material;
Adding the second material to the first mixture and performing secondary kneading to prepare a second mixture; and
preparing a menstrual cup by molding the second mixture; Method for manufacturing an antibacterial menstrual cup comprising. According to paragraph 1,
The first material includes 0.1 to 0.5 parts by weight of the nano-copper powder and 0.01 to 0.05 parts by weight of the lecithin based on 100 parts by weight of the silicone oil,
The second material includes 0.1 to 0.5 parts by weight of the silver ion powder and 0.01 to 0.05 parts by weight of the dispersant, based on 100 parts by weight of the silicone oil,
The mixing ratio of the first material and the silicone rubber is such that the silicone rubber includes 0.1 to 1.0 parts by weight based on 100 parts by weight of the first material,
A method of manufacturing an antibacterial menstrual cup, characterized in that the mixing ratio of the first mixture and the second material is such that 100 to 1000 parts by weight of the second material is included based on 100 parts by weight of the first mixture. According to paragraph 1,
A method of manufacturing an antibacterial menstrual cup, characterized in that tea tree oil, Houttuynia cordata, rice bran, green tea, and mugwort ingredients are further mixed into the first mixture before secondary kneading. An antibacterial menstrual cup manufactured by the manufacturing method of any one of claims 1 to 3.