KR-102962724-B1 - LOCAL HOT AND COLD FACE BEAUTY MASK SYSTEM USING THERMOELECTRIC ELEMENT BY HEAT TRANSFER FLUID ENDOTHERMIC AND DISSIPATION

Abstract

The present invention relates to a cold and hot steam facial beauty mask system using a thermoelectric element by heat absorption and dissipation of a thermoelectric liquid, which deviates from the conventional air-cooling method to maximize the heat transfer efficiency of the thermoelectric element and comprises a thermoelectric liquid having high specific heat, low viscosity, and low freezing point, a water jacket module through which the thermoelectric liquid passes, a heat absorption and dissipation heat exchanger equipped with a thermoelectric element combined with the water jacket module, and a cold and hot steam facial beauty mask device connected through a thermoelectric liquid hose. The system has good heat exchange efficiency, allows for continuous cold steam or hot steam functions through the heat absorption and dissipation heat exchanger, and is hygienic and easy to manage as the flow thermoelectric liquid tube through which the thermoelectric liquid flows is not exposed to the outside, so dew does not form due to the outside air and condensation water is not generated. Additionally, it is hygienic as it uses a disposable functional beauty pack capable of cold and hot steaming, and allows the user to select either a beauty pack for hot steaming or a beauty pack for cold steaming according to their needs.

Inventors

• 안성욱
• 김선수

Assignees

• 주식회사 쉬프트베리

Dates

Publication Date

20260511

Application Date

20230602

Claims (8)

1. A hot and cold steam facial beauty mask system using a thermoelectric element based on heat absorption and dissipation by a thermoelectric liquid, comprising: a hot and cold steam facial beauty mask device part; a heat absorption and dissipation heat exchanger that absorbs heat from the hot and cold steam facial beauty mask device part and dissipates heat or transfers heat absorbed from the outside to the hot and cold steam facial beauty mask device part; and a connection part for connecting the hot and cold steam facial beauty mask device part and the heat absorption and dissipation heat exchanger. The above-mentioned hot and cold compress facial beauty mask device part is, A mask frame for supporting the components of the above-mentioned hot and cold facial beauty mask device; A mask insulation pad attached to the inner surface of the above mask frame to prevent heat from being transferred or radiated to the above mask frame; A low-specific-heat thermoelectric fluid flow tube fixed to the inner surface of the above-mentioned mask insulation pad and filled with low-specific-heat thermoelectric fluid inside: A heat transfer tube mounted inside the above-mentioned low-specific-heat heat transfer fluid flow tube, through which a high-ratio heat transfer fluid with high specific-heat flows; A thermoelectric guide mounted inside the above low-specific-heat thermoelectric fluid flow tube to guide the above thermoelectric fluid conduit; and It includes a disposable functional beauty pack that can be separated from the above-mentioned hot and cold compress facial beauty mask device and, when performing a hot and cold compress, attaches to the user's face or to the above-mentioned low-specific heat transfer liquid tube to transfer the temperature of the above-mentioned low-specific heat transfer liquid flow tube and the temperature of the facial skin. Since the above low-specific-heat heat transfer fluid circulation tube is not exposed to the outside air, condensation caused by the outside air does not form during the cold compress function, The above low-specific-heat thermoelectric liquid flow tube is a cold/hot steam facial beauty mask system using a thermoelectric element based on thermoelectric liquid absorption and dissipation, in which the low-specific-heat thermoelectric liquid filled inside is rapidly heated or cooled by the high-specific-heat thermoelectric liquid flowing through the thermoelectric liquid channel to implement cold steam or hot steam.
2. In claim 1, The above low-specific heat thermoelectric liquid circulation tube is a cold and hot steam facial beauty mask system using a thermoelectric element based on the absorption and release of heat from the thermoelectric liquid, wherein silicone oil, which has a specific heat 1/3 lower than that of water and is harmless to the human body, is filled inside as the low-specific heat thermoelectric liquid.
3. In claim 2, The above disposable functional beauty pack is a hot and cold compress facial beauty mask system utilizing a thermoelectric element based on heat absorption and dissipation of a thermoelectric liquid, comprising a hot compress beauty pack and a cold compress beauty pack.
4. In claim 1, The above mask frame is a hot and cold steam facial beauty mask system using a thermoelectric element based on heat absorption and dissipation of a thermoelectric liquid, having a connecting hose for connecting to the above heat absorption and dissipation heat exchanger.
5. In claim 1, The above heat absorption and dissipation heat exchanger comprises an upper case, a lower case coupled to the upper case to form an internal space, and a heat exchanger mounted in the internal space formed by the upper case and the lower case. The above heat exchanger is, Heat absorption/dissipation radiator: A heat absorption fan operated by a heat absorption fan motor attached to one side of the heat absorption radiator, which releases heat from the heat absorption radiator to the outside or supplies external heat to the heat absorption radiator; A thermoelectric liquid tank mounted on the other side of the above-mentioned heat absorption/dissipation radiator for storing thermoelectric liquid; A heat transfer pump mounted at one end of the heat transfer tank to flow the heat transfer stored in the heat transfer tank; A hot and cold steam water pump module including a heat transfer fluid pipe mounted on one side of the heat transfer fluid pump to move the heat transfer fluid to a heat exchange water jacket module; A hot and cold facial beauty mask system using a thermoelectric element based on heat absorption and dissipation of heat, comprising a heat absorption and dissipation water pump module that transfers the heat liquid received from the heat exchange water jacket module to the heat absorption and dissipation radiator, or transfers the heat liquid received from the heat absorption and dissipation radiator to the heat exchange water jacket module.
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Description

Local Hot and Cold Face Beauty Mask System Using Thermoelectric Element by Heat Transfer Fluid Endothermic and Dissipation The present invention relates to a hot and cold steam facial beauty mask system using a thermoelectric element by heat absorption and dissipation of a thermoelectric liquid, and more specifically, to a hot and cold steam facial beauty mask system using a thermoelectric element by heat absorption and dissipation of a thermoelectric liquid that deviates from the conventional air cooling method to maximize the efficiency of the heat transfer characteristics of the thermoelectric element, and comprises a thermoelectric liquid having high specific heat, low viscosity, and low freezing point, a heat absorption and dissipation heat exchanger equipped with a thermoelectric element combined with a water jacket module through which the thermoelectric liquid passes, and a thermoelectric element, and a hot and cold steam facial beauty mask device part connected through a thermoelectric liquid hose. Generally, the face can be considered the most aesthetically important part of the human body. Because it is constantly exposed to the outside environment, dust and other impurities accumulate in microscopic pores such as pores and sweat glands. Furthermore, if the face becomes dry, the skin cracks, loses elasticity, sags, and wrinkles, making it the part of the body where aging occurs most rapidly. Also, depending on one's constitution, if abnormalities in blood vessels occur due to the influence of external heat, skin problems such as flushing, erythema, or pimples often occur on the face. For this reason, various facial massagers have been developed in the past to remove heat from the facial skin, provide tension and elasticity to prevent sagging or wrinkles, and simultaneously gently relax stiff facial muscles to create vibrant skin. However, conventional facial massagers included hot and cold packs using hot and cold devices, as well as roller-type or ballpoint pen-type rotating devices or rotating plates, but they were very inconvenient to use. In addition, there was a conventional cool massager using a thermoelectric element that was equipped with a case having a hollow hole, and consisted of a thermoelectric element installed inside the case, an operating time controller, a thermoelectric element driving circuit, a fan driving unit for discharging heat, a unit for generating an alarm sound at the end of operation, an oscillator that provides a reference clock to the controller, a DC adapter, a constant voltage circuit, and an operating status display unit. However, this cool massager has a problem in that, when used as a natural air-cooling type, the cooling and heating functions are initially distinguished, but as time passes, the heat of the cooling and heating part is neutralized and the cooling and heating functions are lost, so the cooling and heating functions cannot be continuously sustained. Korean Registered Patent No. 10-1622777 was devised to solve these problems. The above prior patent describes a mask formed to cover the user's face and composed of an inner layer and an outer layer with their edges joined together to form an internal space in which a heat transfer fluid can be filled, and having a fluid inlet and a fluid outlet on one side communicating with the internal space; A heating and cooling supply unit that heats or cools the heat transfer fluid and supplies it to the fluid inlet, and recovers and circulates the heat transfer fluid discharged through the fluid outlet; wherein the heating and cooling supply unit comprises: a tank in which the heat transfer fluid is stored and recovered; a pump that pumps the heat transfer fluid stored in the tank toward the fluid inlet; a thermoelectric element having a cooling surface and a heating surface based on the Peltier effect according to the direction of the supplied current, wherein the thermoelectric element cools the heat transfer fluid stored in the tank by the cooling surface and heats the heat transfer fluid stored in the tank by the heating surface; and a DC supply unit that supplies DC power to the thermoelectric element; and a switch control unit that controls the DC supply unit to switch the direction of the current supplied to the thermoelectric element or to turn the thermoelectric element on or off so that the heat transfer fluid heated or cooled can be mutually switched and supplied to the fluid inlet by user operation. By incorporating this, it offers the advantage of meeting diverse customer needs through a thermoelectric cooling device that does not use refrigerants and features low vibration. When applied to skin care, it can improve the temperature range compared to conventional refrigerant methods, enabling expanded application in the field. Furthermore, it features the ability to easily switch between cooling and heating via user operation, effectively maintaining a temperature suitable for skin care. However, t