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KR-20260066406-A - Acne relief soap composition and method for making the same

KR20260066406AKR 20260066406 AKR20260066406 AKR 20260066406AKR-20260066406-A

Abstract

The present invention discloses a composition of an acne-relieving soap and a method for manufacturing the same. The present invention relates to a composition comprising gallnut, citrus fruit, Polygonum multiflorum, and licorice, immersed in 700 to 1,000 ml of butylene glycol and extracted at 5 to 13°C for 4 weeks, The above composition is mixed with 100 to 110g of *Obeja*, 100 to 110g of *Ji-shil*, 100 to 110g of *Tobokryeong*, and 10 to 20g of *Gamcho*. By further mixing the active additives *Obeja*, *Ji-shil*, *Tobokryeong*, and *Gamcho* into the composition, it has the advantage of excellent effects in reducing inflammation, moisturizing the skin, and strengthening the skin barrier. Additionally, it is eco-friendly and has excellent skin improvement effects as it does not contain chemical surfactants, chemical preservatives, artificial colors, or synthetic fragrances.

Inventors

  • 김미희
  • 박수봉

Assignees

  • 김미희
  • 박수봉

Dates

Publication Date
20260512
Application Date
20241104

Claims (7)

  1. A composition comprising immersing Gallnut, Citrus aurantium, Polygonum multiflorum, and Glycyrrhiza glabra in 700 to 1,000 ml of butylene glycol and extracting at 5 to 13°C for 4 weeks, A composition of an acne-relieving soap characterized by mixing 100 to 110g of the above-mentioned gallnut, 100 to 110g of Citrus aurantium, 100 to 110g of Polygonum multiflorum, and 10 to 20g of licorice.
  2. In Article 1, The above composition is further mixed with active additives such as Houttuynia cordata, noni, Triosteum sinense, charcoal, and honey. A composition of an acne-relieving soap characterized by adding 2g of Houttuynia cordata, 1g of noni, 2g of Trianthema portulacastrum, 5g of charcoal, and 10g of honey to the above composition.
  3. A step for preparing a soap composition by mixing or grinding Gallnut, Citrus aurantium, Smilax china, and Glycyrrhiza glabra; A caustic soda solution mixing step in which the composition prepared in the above soap composition manufacturing step is mixed with a caustic soda solution; After the above caustic soda solution mixing step, a saponification step in which 750g of vegetable oil and 350~360g of caustic soda solution are mixed and stirred for 90~120 minutes at a temperature of around 70°C; An effective additive addition step in which, when the composition stirred in the above saponification step drops to 70℃ or lower, effective additives such as Houttuynia cordata, Noni, Trianthema portulacastrum, charcoal, and honey are further mixed, and when the temperature reaches 60 to 65℃, 10 to 15 ml of essential oil is added to the composition and mixed; A method for manufacturing an acne-relieving soap characterized by including a solidification step in which the composition to which the additive was added in the above-mentioned effective additive addition step is compressed into a mold to solidify.
  4. In Paragraph 3, The above soap composition preparation step is, A first step of immersing a composition obtained by mixing or grinding the above-mentioned Gallnut, Citrus aurantium, Polygonum multiflorum, and Glycyrrhiza glabra in a butylene glycol solvent; A second step of preparing an extract by extracting the composition immersed in the first step above at a temperature of 5 to 13°C for 4 weeks; A third step of filtering the extract obtained in the second step above through a microfilter; A fourth step of preparing a composition by mixing 70-80% distilled water with 20-30% of the concentrate of the composition filtered in the third step above; and In the first step above, The above-mentioned Gallnut, Citrus aurantium, Polygonum multiflorum, and Glycyrrhiza glabra were immersed in 700 to 1,000 ml of butylene glycol and extracted at 5 to 13°C for 4 weeks, A method for manufacturing an acne-relieving soap characterized by the above-mentioned gallnuts being 100 to 110g, Citrus aurantium being 100 to 110g, Scutellaria root being 100 to 110g, and Glycyrrhiza root being 10 to 20g.
  5. In Paragraph 3, In the above caustic soda solution mixing step, A method for manufacturing an acne-relieving soap characterized by freezing the composition for use, and completing a liquid by mixing caustic soda according to the saponification value with ice equivalent to 30-35% of the amount of vegetable oil.
  6. In Paragraph 3, Between the above caustic soda solution mixing step and the saponification step, a vegetable oil mixing step is further included, and A method for manufacturing an acne-relieving soap characterized in that the above vegetable oil is composed of 220g coconut oil, 220g palm oil, 100g apricot kernel oil, 60g soybean oil, 50g rice bran oil, and 50g grapeseed oil.
  7. In Paragraph 3, The additive in the above effective additive addition step is, A method for manufacturing an acne-relieving soap characterized by 2g of Houttuynia cordata, 1g of noni, 2g of Trianthema portulacastrum, 5g of charcoal, and 10g of honey.

Description

Acne relief soap composition and method for making the same The present invention relates to an acne-relieving soap, and more specifically, to a composition of an acne-relieving soap and a method for manufacturing the same, which has the advantage of having excellent waste removal effects while minimizing skin irritation by not containing artificial colors, synthetic fragrances, chemical surfactants, etc., and having excellent effects in reducing inflammation and pruritus through sterilizing, anti-inflammatory, and anti-allergic actions on the skin by including Gallnut, Citrus aurantium, Polygonum multiflorum, and Glycyrrhiza glabra. Generally, soap is a household product for skin cleansing composed of water-soluble alkali metal salts of higher fatty acids, designed to wash the skin to remove impurities and thereby protect the skin from bacteria. However, while these soaps are generally effective at removing impurities through skin cleansing, they had the disadvantage of being susceptible to skin irritation and unable to remove harmful substances that cause inflammation, such as acne. For this reason, functional soap products for cosmetic purposes are being researched and continuously released; however, harmful side effects, such as causing new skin irritations or skin diseases, are being pointed out. Therefore, interest in and demand for natural soaps or natural cosmetics that are non-toxic and do not contain irritating ingredients have recently been surging. Natural soaps can be broadly classified into MP (Melt & Pour) soap, HP (Hot Process) soap, and CP (Cold Process) soap depending on the manufacturing method. HP soap, also known as clear soap or glycerin soap, is manufactured by mixing caustic soda and oil at high temperatures. It has good cleaning power and a long-lasting scent, but it has the disadvantage of not being able to add effective ingredients that are good for the skin. CP soap is manufactured by reacting oil and caustic soda at low temperatures with various additives. While it minimizes the destruction of nutrients in the oil and allows for the addition of effective additives, it has the disadvantage of requiring aging at room temperature for more than 8 weeks, during which a significant portion of the essential oils evaporates. In order to solve the inconvenience of the above-mentioned conventional soap manufacturing method, which requires a lot of time and process, prior registered patent No. 10-865095 (Title of invention: Method for manufacturing soap) proposes a method for manufacturing soap that has a short curing period, is relatively solid, and has alkalinity with a pH value between 7 and 9. However, the aforementioned conventional technology has a problem in that it cannot sufficiently include skin-effective ingredients in the soap. FIG. 1 is a process diagram for explaining a method for manufacturing an acne-relieving soap according to an embodiment of the present invention. To fully understand the present invention, preferred embodiments of the invention will be described with reference to the accompanying drawings. Embodiments of the present invention may be modified in various forms, and the scope of the present invention should not be interpreted as being limited to the embodiments described in detail below. In addition, detailed descriptions of known functions and configurations that are deemed to unnecessarily obscure the essence of the present invention are omitted. Figure 1 attached is a process diagram for explaining a method for manufacturing an acne-relieving soap according to an embodiment of the present invention. The acne-relieving soap according to the present invention adds additives such as Houttuynia cordata, Noni, Triosteum sinense, and honey to a composition in which Gallnut, Citrus aurantium, Polygonum multiflorum, and Glycyrrhiza glabra are immersed in butylene glycol and mixed. More specifically, the composition is obtained by immersing Gallnut, Citrus aurantium, Polygonum multiflorum, and Glycyrrhiza glabra in 700 to 1,000 ml of butylene glycol and extracting at 5 to 13°C for 4 weeks, with the content being 100 to 110 g of Gallnut, 100 to 110 g of Citrus aurantium, 100 to 110 g of Polygonum multiflorum, and 10 to 20 g of Glycyrrhiza glabra, respectively. At this time, the above composition is further mixed with effective additives such as Houttuynia cordata, noni, Triosteum sinense, charcoal, and honey, with 2g of Houttuynia cordata, 1g of noni, 2g of Triosteum sinense, 5g of charcoal, and 10g of honey added, respectively. Below, the respective components of the compositions and additives included in the acne relief soap are described in more detail. Gallnut (fruit of the Rhus tree) Rhus verniciflua, also known as nutgall, is a deciduous small tree distributed in Korea, Japan, China, and other regions. It is also called *Obaejanamu* or *Yeombumok*, and *Obaeja* is the fruit of this Rhus verniciflua, and the components that exhibit various pharmacological eff