KR102391666B1 - Portable bag warmer and heating box including the same - Google Patents

Abstract

The present invention relates to a portable heating pack and a portable heating box including the same. The present invention relates to the portable heating pack which generates high-temperature heat by a reaction of water and calcium oxide to have an effect of warning or cooking food without fire even at the outside and includes an antibacterial and deodorizing composition capable of elimination of odor generated in case of heat generation and long-term storage even under a normal temperature and humidity environment and the portable heating box including the same capable of making a container accommodating food hot or cooking.

Description

Portable heating pack and portable heating box including same

The present invention relates to a portable heating pack and a portable heating box including the same. In more detail, high-temperature heat is generated by the reaction of water and calcium oxide, so that the container in which the food is stored can be heated or cooked without an external fire, and the odor generated during heat generation is removed, and the temperature is maintained at room temperature. It relates to a portable heating pack containing an antibacterial and deodorizing composition for long-term storage even in a habitual environment, and a portable heating box including the same.

Recently, due to the increase in leisure time, the time for outdoor activities such as mountain climbing, fishing, and various events is increasing. It is common to bring a packed lunch and drinking water as needed.

In particular, in consideration of the risk of fire during mountain climbing, carrying cooking utensils such as burners or gas stoves is prohibited at all. There is a problem that it is very cumbersome to always prepare hot water, and the types of instant food itself are extremely limited.

Moreover, most people prefer to eat food by heating it unless the weather is very hot, so as a way to satisfy this desire, recently, technology that is easy to carry and can be heated and consumed freely is being actively developed. there is.

Recently, various conventional techniques have been introduced in relation to the heating cup. In addition, with the development of wireless charging technology, a technology combining a wireless charging pad and a heating cup is also being introduced. However, since the stated prior art uses a wireless charging method, user convenience is good, but energy efficiency is low, and in fact, heating of the cup contents is made by a coil-type heating unit installed on the outer surface of the cup container part, There are still problems such as high power consumption, durability, and lifespan due to the use of a heating coil in the form of a heating coil.

A heating element can be used to easily solve the above problem, but the conventional heating element is water by mixing at least one compound of quicklime, potassium hydroxide, calcium chloride, magnesium chloride, calcium carbonate, calcium hydroxide, sodium bicarbonate, and aluminum in a certain ratio. , sodium hydroxide solution, phosphoric acid solution, hydrochloric acid solution, and sodium chloride solution use the reaction heat generated by reacting with one or more solutions. .

In addition, it is possible to heat the existing heating element to a high temperature by increasing the amount of heat, but there is a problem in that the heating time is short of 15 minutes or less, so there is a limit to the portable packaged food that can be heated.

On the other hand, as another example of the prior art, an electric mat using a carbon nanotube heating element has been introduced. However, this prior art is difficult to manufacture and uses a heating element extruded by mixing carbon nanotubes with a polymer, and its use is limited. has a

In general, a heat source is required to heat a certain object. Commonly used heat sources include electric heat that generates heat by using electrical resistance of metal, and combustion heat generated by burning gas, etc.

Looking at the generation process of electric heat and combustion heat as described above, it can be seen that most of them are obtained by burning natural resources. However, as described above, energy generated by consuming natural resources often accompanies environmental pollution.

Accordingly, many efforts are being made to develop alternative energy that can replace the energy generated through the above-described generation process or a technology for saving energy.

KR 10-2013-0044175 B1

An object of the present invention is to generate high-temperature heat by the reaction of water and calcium oxide, so that food can be heated or cooked without fire outside, and odors generated during heat generation are removed, and long-term storage at room temperature and humidity. It is intended to provide a portable heating pack containing an antibacterial and non-deodorizing composition to make it possible.

Another object of the present invention is to provide a portable heating box that can heat or cook a container in which food is stored without external fire, including the portable heating pack.

In order to achieve the above object, a portable heating pack according to an embodiment of the present invention includes a first cover having an internal accommodation space; a second cover sealing the first cover while accommodating it and forming a water inlet through which water is introduced into either the front or rear surface; and the receiving space includes a heating element composition.

The heating element composition includes calcium oxide (CaO), aluminum (Al) and calcium hydroxide.

The first cover and the second cover are selected from the group consisting of polyethylene (PE), polypropylene (PP), stretched polypropylene (OPP), nylon (NY), and mixtures thereof.

The first cover and the second cover are coated with an antibacterial and deodorizing composition.

The antibacterial and deodorizing composition is fine powder shungite, fine powder illite, fine powder zeolite, fine powder elvanite, fine powder bentonite, fine powder diatomite, fine powder germanium, fine powder ocher, fine powder alum, fine powder jade ) and an inorganic powder selected from the group consisting of mixtures thereof.

A portable heating box including a portable heating pack according to another embodiment of the present invention includes a body having an accommodation space formed therein, and an open top; a heating pack receiving part detachably coupled to the lower part of the main body and positioned at the lower part of the main body; The heating pack accommodating part accommodates the heating pack, and the food accommodating part is inserted into the body through the upper part of the body; and a cover that opens and closes the upper portion of the main body and has a plurality of gas outlets.

The heating pack may include: a first cover having an internal accommodating space; a second cover sealing the first cover while accommodating it and forming a water inlet through which water is introduced into either the front or rear surface; and the accommodating space contains a heating element composition, and by filling the space between the interior of the body and the food accommodating part with water, the heating pack accommodated in the heating pack accommodating part reacts with water to generate heat, and the generated heat is generated. The food accommodated in the food container is heated by the heat.

Another portable heating cup according to another embodiment of the present invention is to include the portable heating pack.

Hereinafter, the present invention will be described in more detail.

The embodiments introduced below are provided as examples so that the spirit of the present invention can be sufficiently conveyed to those of ordinary skill in the art. Accordingly, the present invention is not limited to the embodiments described below and may be embodied in other forms. And, in the drawings, the size and thickness of the invention may be exaggerated for convenience. Like reference numbers refer to like elements throughout.

Advantages and features of the present invention, and a method for achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention pertains It is provided to fully inform the possessor of the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout. The sizes and relative sizes of layers and regions in the drawings may be exaggerated for clarity of description.

The terminology used herein is for the purpose of describing the embodiments, and thus is not intended to limit the present invention. In this specification, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, "comprise" and/or "comprising" refers to the presence of one or more other components, steps, operations and/or elements mentioned. or addition is not excluded.

1 is a view showing a portable heating pack according to an embodiment of the present invention.

A portable heating pack according to an embodiment of the present invention includes: a first cover 100 having an internal accommodating space; a second cover 200 sealing the first cover while accommodating it and forming a water inlet 201 through which water flows into any one of the front and rear surfaces; and the receiving space includes a heating element composition.

The first cover 100 of the present invention has an internal accommodating space, and includes a heating element composition in the accommodating space.

The second cover 200 is sealed in a state in which the first cover 100 is accommodated, and a water inlet 201 for introducing water into either the front or rear surface is formed. The size and shape of the water inlet 201 is not limited, and it is defined as including all shapes that can be used by a person skilled in the art.

In addition, the water inlet 201 of the second cover 200 allows the introduced water to react with the heating element composition of the receiving space of the first cover 100, and transfer the reaction heat and exothermic steam generated by the reaction. .

The heating element composition includes calcium oxide (CaO), aluminum (Al) and calcium hydroxide.

When the calcium oxide (CaO) comes into contact with water, a hydration reaction proceeds immediately, and as calcium hydroxide is produced, the liquid changes to alkaline and at the same time generates heat.

As the calcium oxide (CaO) used in the present invention, any commercially available calcium oxide may be used, but it is preferable to use calcium oxide with few impurities in order to accelerate the reaction rate and obtain a large amount of heat of reaction. That is, it is preferable to use one containing 97% or more of calcium oxide and containing 1.6% of impurities and 0.6% or less of CO ₂ .

In addition, the smaller the particle size of the calcium oxide used, the faster the reaction rate may be. If the particle size is too small, there is a disadvantage that handling becomes difficult. Therefore, the preferred particle size of calcium oxide is to use one in the range of 100 mesh to 150 mesh.

The aluminum (Al) is mixed with calcium hydroxide to generate high-temperature gas and heat. Aluminum (Al) of the present invention reacts secondarily with calcium hydroxide, which is firstly generated by the calcium oxide and water, and is dissolved in water to increase the temperature of the composition and to help the reaction of other components so that the heating element composition is combined to react. .

The heating element composition of the present invention generates heat by reacting calcium oxide (CaO) with water, and at the same time, causes an exothermic reaction between calcium hydroxide and aluminum (Al) produced by this reaction. Sufficient calorific value for heating food or the like can be obtained by such a series of reactions.

It may be more effective to use aluminum entirely without using the calcium oxide and calcium hydroxide, but aluminum cannot be used alone because aluminum alone does not react with water without calcium oxide and calcium hydroxide.

According to the present invention, calcium oxide and water are reacted, and then the calcium hydroxide and aluminum, which are formed by the reaction of the calcium oxide and water, are reacted.

Preferably, the heating element composition of the present invention includes 60 to 80 parts by weight of calcium hydroxide and 40 to 60 parts by weight of calcium oxide based on 100 parts by weight of aluminum.

When the calcium hydroxide is included in less than 60 parts by weight with respect to 100 parts by weight of the aluminum composition, the reaction holding time is short and does not generate sufficient heat in the first reaction with the aluminum powder. It does not dissolve, so it does not provide sufficient heat for its quantity.

When the calcium oxide is included in less than 40 parts by weight, the amount of heat is insufficient, so the reaction with other components is not smooth and the temperature is lowered. The amount of other components is reduced, resulting in a shorter high temperature holding time.

The first cover 100 and the second cover 200 are selected from the group consisting of polyethylene (PE), polypropylene (PP), stretched polypropylene (OPP), nylon (NY), and mixtures thereof.

The polyethylene (PE, Polyethylene) material is a heat-resistant material, which is widely used in kitchenware, is easy to process, and is used in various product groups, and is also a main raw material for PET bottles. In addition, it hardly occurs discoloration even when exposed to sunlight for a long time, and as a relatively safe material, it is often used in children's toys.

In addition, the polyethylene (PE, Polyethylene) material can be divided into high density, low density, medium density, ultra high density, and ultra low density according to the density. As a synthetic resin, it is a transparent solid (with a density of 0.91 to 0.94) at room temperature, and has low crystallization and excellent processability, flexibility, and transparency.

The polypropylene (PP) is a thermoplastic polymer material obtained by chain growth polymerization of a propylene monomer consisting of three carbons. It is a representative polyolefin-based polymer along with polyethylene, and is used in a wide range of applications, such as packaging, textiles, films, automobile parts, storage containers, and medical products. Polypropylene is an aliphatic hydrocarbon consisting only of carbon and hydrogen, and has properties similar to polyethylene. In particular, it is similar in solubility and electrical properties, and has a disadvantage in that chemical resistance and oxidation resistance are relatively poor.

The stretched polypropylene (OPP) is a film made by stretching polypropylene in one or both directions. When the polypropylene is stretched, the molecular arrangement of the polypropylene is arranged in the pulling direction, and the strength increases in the pulling direction. Uniaxially stretched ones are easy to tear because they have the directionality of strength, and they are sometimes used to make openable bags. Biaxially stretched ones have similar horizontal and vertical strength, strong mechanical strength, and good printing and processing aptitude, so they are widely used as base films. The abbreviation is OPP. OPP cannot be heat-bonded and shrinks by heating, but has excellent transparency, moisture-proof properties and oil resistance.

Nylon (NY) is a generic term for linear synthetic polyamide among polyamides (a polymer compound having an amide bond -CONH), and general nylon is roughly divided into two types. m, n-nylon or nylon mn is a polycondensate of a diamine NH ₂ (CH ₂ )mNH ₂ having m carbon atoms and a dibasic acid HOOC(CH ₂ )n-2COOH having n carbon atoms, industrially 6,6-nylon, 6, 10-nylon, etc. are being produced. n-nylon or nylon n is a polycondensate or polymer of ω-amino acid H ₂ N(CH ₂ )nCOOH or lactam having n carbon atoms, and 6-nylon and 11-nylon are industrially produced. In addition, so-called hybrid polymer nylon such as a hybrid condensate of caprolactam and 6, 10-nylon salt (hexamethylenediamine and sebacate) is industrially produced.

The first cover 100 and the second cover 200 are made of a non-woven fabric that allows the heating element composition therein to easily come into contact with water, and is preferably made of polyethylene (PE).

The nonwoven fabric is a raw material fiber made by arranging fibers in a parallel or irregular direction without going through a weaving process and combining them with a synthetic resin adhesive to form a felt. good in terms of efficiency. However, if the particle size is too small, it may leak from the nonwoven fabric, and if it is too large, the reaction efficiency may be low.

The first cover 100 and the second cover 200 are coated with an antibacterial and deodorizing composition.

The antibacterial and deodorizing composition in the present invention is to be able to physically or chemically adsorb a specific component, and the antibacterial and deodorizing composition can adsorb odors and other harmful bacteria to produce an antibacterial effect.

The heating element composition of the present invention generates heat by reacting with water, and since heat is generated upon contact with moisture, long-term storage is not easy in an environment with high moisture in the air. In addition, since the heating element composition of the present invention is a metal or compound of a salt, an odor may be generated during heating and may permeate into the food.

Therefore, the antibacterial and deodorizing composition of the present invention is coated on the first cover 100 and the second cover 200 of the present invention to remove the odor generated during the heating process of the heating element composition, and to be stored for a long time even in a normal temperature and humidity environment. will do

The antibacterial and deodorizing composition is fine powder shungite, fine powder illite, fine powder zeolite, fine powder elvanite, fine powder bentonite, fine powder diatomite, fine powder germanium, fine powder ocher, fine powder alum, fine powder jade ) and an inorganic powder selected from the group consisting of mixtures thereof.

The fine powder as used in the present invention refers to being crushed by a ball mill, jet mill, other pulverizing device, etc. or manufactured to have the properties of a fine powder in the synthesis process, and the fine powder is defined as having an average particle diameter of 100 μm or less.

As used in the present invention, “gait” is a layer (up to 2 m thick) or lenticular in a low metamorphic shale rich in small graphite microcrystals of the Proterozoic Jatulian in Shunga, near northern Lake Karelia Ladoga, Russia. . It has pitch-like black, dense, opaque, metallic luster. soft Hardness 2.5. d 1.75~1.80, it does not melt in the fire and makes Seokmuk acid in concentrated nitric acid.

The chemical composition of illite as used in the present invention is (K,H ₃ O)Al ₂ (Si,Al) ₄ O ₁₀ (H ₂ O,OH) ₂ . In terms of chemical composition, there are some that are close to muscovite, but relatively SiO ₂ , MgO, H ₂ O are high, and K ₂ O is small. It is a mineral of the same series as hundreds of mica. It has a hardness of 1 to 2 and a specific gravity of 2.6 to 2.9. The cleavage is complete, the streak is white, and there is an earthy luster. In terms of chemical composition or crystal structure, there is an opinion that it is not an independent mineral, but a mixed mineral containing other components. It is produced in aluminum-rich heterogeneous or tuff sedimentary rocks, and it is produced as a metamorphic mineral of hydrothermal mineralogy.

The zeolite referred to in the present invention is also called zeolite. Although there are many types, they have common features such as high water content, crystal properties, and acid phase. The hardness does not exceed 6, and the specific gravity is about 2.2. It is usually colorless transparent or white translucent. It got its name because it boils and expands when heated with a blowpipe. Most kinds dissolve in hydrochloric acid and often form a glue, but a few kinds are insoluble in hydrochloric acid. Main types include bantamite, fisheye, chabazite, soda zeolite, hewlandite, stilbite, lomontite, and inesite. It is produced in hollows or fissures of basic igneous rocks such as basalt and pyroclastic tuff, and sometimes exists as a secondary mineral in granite and gneiss. In addition, it may be produced in gold veins and other veins. Since the bonds between each atom are loose in the crystal structure, even if the moisture filling the gap is released with high heat, the skeleton remains intact, so other particulate matter can be adsorbed. Using this property, it is used as an adsorbent and as a molecular sieve that separates particles of different sizes.

Elvan stone in the present invention is known as a term used in Chinese oriental medicine, and geologically it belongs to the granite class. As quartz porphyry, feldspar porphyry, and granite porphyry, the name of the rock corresponds to quartz-monzonite. Quartz and feldspar are densely mixed. Yellowish white, light yellowish brown, light gray, dark green, or light green rocks with red dots or white dots evenly mixed in it resembles a rice ball made of barley, hence the name elvan stone. The main components are silicic anhydride and aluminum oxide, and a small amount of iron oxide is contained. What is known as yakseok is a yellowish white elvan stone that was used in the past as a filter agent to refine pills and as an anti-inflammatory agent to treat skin diseases such as swelling or boils on the back. According to Donguibogam, its nature is sweet, warm, and non-toxic. It has 3 to 150,000 pores per 1 cm ³ , so it has strong adsorption and contains about 25,000 kinds of inorganic salts. Because it acts to exchange ions with heavy metals, it is also used as a toxic metal remover, and it is known that when heat is applied to this rock, it emits far-infrared rays. Because of these characteristics, it is used in various industrial fields such as jjimjilbang, tableware, and medical equipment.

Benzoite as used in the present invention includes quartz, feldspar, zeolite, and the like in many cases. Colors include white, gray, light brown, and light green. It has pearl luster and waxy luster and is produced as a dense mass with a sense of fat. Tuff and glassy rhyolite are altered. Its use is very wide, and it is also used as a main component of water for petroleum refining, as a binder for castings, as an admixture for ceramic materials, and as a base agent for ointments. The name is derived from the strata of the state of Wyoming, USA, where it was discovered.

Diatomaceous earth referred to in the present invention is mainly made of silicic acid (SiO ₂ ), and has a white or grayish white color. It is light and soft enough to be smeared with powder when touched with your fingers. Because it is finely porous, it has strong absorption and is a poor conductor of heat. Diatomaceous earth in Korea is produced as soil in the tertiary or quaternary strata. During the Old 3rd Period of our country, fault motions in the northeast to northeast directions occurred, forming rift sedimentary basins in various places. The Yeongil Basin, the Jigji Belt between Gilju and Myeongcheon, the Jigji Belt between Seoul and Wonsan, and the Tuman River Basin were formed, and the Tertiary Basin was deposited here. When the sedimentary layer was formed, diatoms were deposited in small shallow lakes or freshwater basins in various places to form mineral deposits. Among these sedimentary basins, diatomaceous earth in Yeongil Bay is the largest in terms of diatomite deposits, and is concentrated in Wolseong and Yeongil, Gyeongsangbuk-do. In addition, in North Hamgyong Province, Haenghyeon-ri and Namsan-ri, Anbyeon-myeon, Anbyeon-gun, Anbyeon-gun, Bupyeong-dong, Junam-myeon, Gyeongseong-gun, Hamgyeongbuk-do, Hoemun Mine, Jubuk-myeon, Gyeongseong-gun, Sanbon Mine, Myeongcheon-gun, Myeongcheon-gun Seomyeon Baengnok Mine, Gangwon-do The production areas such as Sephori, Gosap-myeon, Pyeonggang-gun are known. The development of diatomaceous earth as a mineral deposit in Korea began in 1941 when it was incorporated as a designated legal mineral by the 'Joseon Mining Ordinance'. Since then, diatomite deposits have been discovered in various places in Korea. In particular, it is said that diatomaceous earth produced in Iil-ri, Yangbuk-myeon, Wolseong-gun, Gyeongsangbuk-do was used as a raw material in Nodong-ri, Gyeongju-si, for the manufacture of Asahi furnaces in Japan. Recently, it is used as a fire-resisting material, and because of its strong absorbency, it is mostly used as a filter material for the purification of industrial water, water supply, medicine, food, etc. In addition, it is used as a filler for plastics and paper, an adsorbent for dynamite, a hemostatic agent, and a mixture of cement.

Germanium as used in the present invention has an element symbol Ge, an atomic number 32, and an atomic weight of 72.59±3. Its existence was predicted by D. I. Mendeleev in 1871 and it was called Eka silicon, but it was discovered in 1986 by German chemist C. A. Winkler in Ag GeS and named after Germany's Latin name "Germania". Because it is similar to silicon, it exists widely by substituting for silicon in silicate in the earth's crust, and is contained in sulfide minerals or coal containing copper or zinc, but there are very few minerals mainly composed of germanium.

The alum referred to in the present invention is also called alum stone. The chemical composition is KAl ₃ (SO ₄ ) ₂ (OH) ₆ . It appears as hexagonal plate-like or impression-shaped crystals, which are usually lumpy or granular. It has a hardness of 3.5 to 4 and a specific gravity of 2.6 to 2.9. The crystalline form has a complete cleavage on the underside, and a pearlescent luster appears on the cleavage surface. The odd one has no luster. It is white or gray, sometimes red, yellow, or reddish-brown. The streak color is white. Insoluble in hydrochloric acid, soluble in potassium hydroxide or hot sulfuric acid. It is produced in volcanic rock that has undergone hydrothermal alteration.

The jade as used in the present invention is dense and hard, transparent and beautifully shiny, and polished to luster. Mineralogically, nephrite is a type of amphibole, and jadeite is a type of alkali pyroxene. Nephrite is often milky white, and there are also green, yellow, and red, and jadeite is green and white. There are various names depending on the color, but white jade and jade are the representative ones. It has been valued in the Orient since ancient times, and has been used as a decorative stone and jade ware. Nephrite is produced as pulses in crystalline schist or gneiss in Turkey and other places, and in the contact zone of granite in northeast China. Jadeite is produced in the form of veins in serpentine in Myanmar, and is also produced in Yunnan, China and the Tibetan Plateau. Jade in the narrow sense refers to jade, but the present invention is not limited thereto, and jade in the present invention is defined to include all of the above-described jade in the broad sense.

Preferably, the inorganic powder is heat-treated by mixing with a solution containing any one selected from the group consisting of strontium ions (Sr ²⁺ ), calcium ions (Ca ²⁺ ), magnesium ions (Mg ²⁺ ), and mixtures thereof. it could be

When the inorganic powder is mixed with the ion-containing solution and heat-treated, the antibacterial and deodorizing power of the inorganic powder itself against bacteria (S. mutans, etc.) can be greatly increased.

More preferably, the inorganic powder may be heat-treated by mixing it with a solution containing strontium ions (Sr ²⁺ ) and calcium ions (Ca ²⁺ ). According to the above range, the antibacterial and deodorizing ability of the inorganic powder itself may be the highest.

More preferably, the inorganic powder includes fine powder zeolite, and based on 100 parts by weight of the zeolite, 20 to 60 parts by weight of fine powder shungite, 20 to 60 parts by weight of fine powder illite, 20 parts by weight of fine powder elite to 60 parts by weight, fine powder bentonite 20 to 60 parts by weight, fine powder diatomaceous earth 50 to 100 parts by weight, fine powder germanium 10 to 20 parts by weight, fine powder loess 10 to 20 parts by weight, fine powder alum 10 to 20 parts by weight, and fine powder jade ) 10 to 20 parts by weight are included, and may be heat-treated by mixing with a solution containing strontium ions (Sr ²⁺ ) and calcium ions (Ca ²⁺ ).

In the case of the above range, the antibacterial and deodorizing effect can be greatly increased beyond a simple combination due to the interaction of the powders constituting the inorganic powder.

In addition, when the antibacterial and coating composition in the above range is coated on the first cover 100 and the second cover 200 of the present invention, the heating element composition of the present invention is provided and protected while the antibacterial and deodorizing effect is greatly increased. can

Preferably, the antibacterial and deodorizing composition of the present invention contains a natural extract selected from the group consisting of Polypogon monspeliensis, Vicia pseudoorobus Fisch. & C.A.Mey. include more

The Gaetsodolpi (Polypogon monspeliensis) is a weed belonging to the genus Poapuaceae. Native to southern Europe, but now spread throughout the world, it is an annual herb between 5 cm and 1 m tall.

The big rake (Vicia pseudoorobus Fisch. & C.A.Mey.) is a perennial vine, and has a stem of 80 to 150 cm in length with or without some hairs. The leaf is an upper right ventral leaf composed of 2 to 5 pairs of leaflets, and the tendril at the tip is not split or split. Leaflets are ovate, acute or obtuse, 3 to 5cm long and 15 to 30mm wide, turn yellowish brown when dry, veins on the back side protrude, and stipules are green and split sharply. The flower comes out from the leaf axil, and it is 4 to 8cm long, and the flower stalk is long and it is biased to one side above the center, and many flowers run in a raceme. Flowers bloom in September, 13-15mm long, purple, and the sepals are low triangular. The leaf is an upper right ventral leaf composed of 2 to 5 pairs of silver leaflets, and the tendril at the tip is not split or split. Leaflets are ovate, acute or obtuse, 3 to 5cm long and 15 to 30mm wide, turn yellowish brown when dry, veins on the back side protrude, and stipules are green and split sharply.

The serratus rake (Vicia heptajuga Nakai) is a perennial plant that grows in mountainous areas. The leaves are alternate phyllotaxis, and the leaves are even-pinnate compound leaves composed of 4 to 6 pairs of leaflets, with tendrils at the tip, dull at the bottom, long pointed ends, and the edges are it's bland Flowers bloom in reddish-purple from June to July, and 2 to 4 cm inflorescences appear from the leaf axils and run biased to one side in raceme inflorescences.

Preferably, the heating element composition of the present invention comprises 40 to 60 parts by weight of the serratus rake extract and 40 to 60 parts by weight of the serrata rake extract with respect to 100 parts by weight of the gatseopsis extract.

The natural extract is adsorbed to the inorganic powder of the present invention.

According to the above range, it is possible to exhibit high antibacterial activity compared to simple mixing by the interaction of each extract. In particular, in the case of the above range, even if the natural extract is included in the pores of the inorganic powder as a carrier, the antibacterial effect or deodorization effect may not be lost, so that the antibacterial activity is maintained for a long time, and the antibacterial activity against additional contamination be able to make it appear.

The antibacterial and deodorizing composition is used in the first cover 100 and the second cover 200 to effectively remove harmful bacteria, and at the same time, is effective in deodorizing odors caused by contamination that occurs frequently in the field, as well as the source of the contamination. Through removal, it is possible to realize a more sanitary heating pack use environment.

The method for preparing the antibacterial and deodorizing composition of the present invention consists of fine powder šœgate, fine powder illite, fine powder zeolite, fine powder elvanite, fine powder bentonite, fine powder diatomaceous earth, fine powder germanium, fine powder loess, fine powder alum, fine powder jade, and mixtures thereof. Inorganic powder impregnation step of impregnating an inorganic powder selected from the group into a natural extract selected from the group consisting of gatsodolpi extract, large rake rake extract, seondeung rake extract and mixtures thereof so that the natural extract is impregnated into the porous interior of the inorganic powder ; a drying step of drying the inorganic powder impregnated with the natural extract according to the tame impregnation step; mixing the inorganic powder dried according to the drying step with purified water; It may include the step of mixing alcohol.

The natural extract is extracted using an extraction solvent selected from the group consisting of water, C ₁ to C ₆ lower alcohols, and mixtures thereof.

Specifically, washing the natural product to prepare the extract; drying after washing; pulverizing the natural product after drying; leaching the pulverized product using an organic solvent; drying the sample after leaching; leaching with water; And including the step of leaching, it is possible to obtain a natural extract.

The natural extract extracted using the organic solvent may further comprise the step of performing fractionation using an organic solvent.

The method for preparing the extract may be a conventional extraction method in the art, such as an ultrasonic extraction method, a leaching method, and a reflux extraction method. Specifically, it may be an extract obtained by extracting a natural product from which foreign substances have been removed by washing and drying with water, alcohol having 1 to 6 carbon atoms, or a mixed solvent thereof, and may be an extract extracted by sequentially applying the solvents to the sample.

The reflux extraction method is water, based on 100 mL of an alcohol having 1 to 6 carbon atoms, 10 to 30 g of a pulverized product of a natural product, a reflux time of 1 to 3 hours, and 50 to 100% alcohol or water having 1 to 6 carbon atoms. More specifically, based on 100 mL of alcohol having 1 to 6 carbon atoms or 100 mL of water, 10 to 20 g of a pulverized product of a natural product, a reflux time of 1 to 2 hours, and 70 to 90% alcohol or water having 1 to 4 carbon atoms. .

The leaching method is carried out at 15 to 30° C. for 24 to 72 hours, and water or 50 to 100% alcohol having 1 to 6 carbon atoms is used as an extraction solvent. More specifically, the process is carried out at 20 to 25° C. for 30 to 54 hours, and the extraction solvent is water or 70 to 80% alcohol having 1 to 6 carbon atoms.

In the ultrasonic extraction method, the reaction is performed at 30 to 50° C. for 0.5 to 2.5 hours, and the extraction solvent is water or 50 to 100% alcohol having 1 to 6 carbon atoms. Specifically, extraction is performed at 40 to 50° C. for 1 to 2.5 hours, and the extraction solvent is water or 70 to 80% alcohol having 1 to 6 carbon atoms.

The extraction solvent may be used in an amount of 2 to 50 times, more specifically, 2 to 20 times, based on the weight of the sample. For extraction, the sample may be left for 1 to 72 hours for leaching in the extraction solvent, and more specifically, left for 24 to 48 hours.

After extraction, the extract may be fractionated by sequentially applying a fresh fractionation solvent. The fractionation solvent used for fractionation is any one or more selected from the group consisting of water, hexane, butanol, ethyl acetic acid, ethyl acetate, methylene chloride and mixtures thereof, preferably ethyl acetate or methylene chloride.

After obtaining the extract or fraction, a method such as concentration or freeze-drying may be additionally used.

A portable heating box including a portable heating pack according to another embodiment of the present invention includes a body having an accommodation space formed therein, and an open top; a heating pack receiving part detachably coupled to the lower part of the main body and positioned at the lower part of the main body; The heating pack accommodating part accommodates the heating pack, and the food accommodating part is inserted into the body through the upper part of the body; and a cover that opens and closes the upper portion of the main body and has a plurality of gas outlets.

The body of the present invention has a receiving space inside, and has an open top, and various materials for minimizing heat loss, such as plastic material, aluminum material, waterproof coated paper material, borosilicate glass, etc., are applicable. It is not limited to the shape of a round container, a rectangular container, etc., and its size and shape are not limited, and it is defined as including all shapes that can be used by a person skilled in the art.

The heating pack receiving part of the present invention is to be detachably coupled to the lower space of the main body, and forms a through hole through which water added through the upper part of the main body can be introduced.

The food accommodating part of the present invention is coupled to the upper part of the heating pack accommodating part through the upper part of the main body, and the reaction heat and exothermic steam generated in the heating pack by the introduced water are moved to the space of the food accommodating part through a through hole. heating the contents.

In addition, the food accommodating part of the present invention may be provided with a highly conductive metallic thin film so that heat generated by the heat generating pack can be well transferred to the contents of the food accommodating part.

The cover of the present invention is provided to open and close the upper part of the main body, and forms a plurality of gas outlets to discharge hydrogen gas so that the main body does not expand when heat is generated. The size and shape are not limited, and it is defined as including all shapes that can be used by a person skilled in the art.

The heating pack may include a first cover 100 having an internal accommodating space; The second cover 200 and the accommodating space that form a water inlet 201 through which water is introduced into either the front or the rear while sealing the first cover 100 in a state containing the accommodating space include a heating element composition. , by filling the space between the inside of the main body and the food accommodating part with water, the heating pack accommodated in the heating pack accommodating part reacts with water to generate heat, and the food accommodated in the food accommodating part is heated by the generated heat. will be.

Another portable heating cup according to another embodiment of the present invention is to include the portable heating pack.

The present invention is to generate high-temperature heat by the reaction of water and calcium oxide, and food can be heated or cooked without external fire, and can be stored for a long period of time even at room temperature and in a humid environment. To provide a portable heating pack containing an antibacterial and deodorizing composition, and a portable heating box capable of heating or cooking a container containing food including the same.

1 is a view showing a portable heating pack according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail so that those of ordinary skill in the art can easily carry out the present invention. However, the present invention may be embodied in several different forms and is not limited to the embodiments described herein.

[Production Example 1: Preparation of heat pack]

1. Preparation of heating element composition

Calcium oxide (CaO) having a purity of 97%, aluminum (Al) having a purity of 99.8%, and calcium hydroxide having a purity of 95% were mixed as shown in Table 1 below to prepare a heating agent composition of the present invention.

HC1 HC2 HC3 HC4 HC5 aluminum 100 100 100 100 100 calcium hydroxide 50 60 70 80 90 calcium oxide 30 40 50 60 70

(Unit: parts by weight)

2. Manufacture of the thermal pack

After each 20 g of each of the prepared heating element compositions HC1 to HC5 were placed in the first cover 100 formed of a non-woven fabric, a second cover 200 capable of sealing the first cover 100 was constructed. , a water inlet 201 for allowing water to flow in is formed on the front surface of the second cover 200 to manufacture the heating pack of the present invention.

[Example 1: Measurement of heat generation and heat retention degree]

Five heating packs containing the heating element compositions HC1 to HC5 prepared in Preparation Example 1 were placed on the bottom of the prepared container, respectively, and 40 mL of water was added thereto. As soon as water was added, an exothermic reaction started, and at the same time as the exotherm started, the temperatures of the heating element compositions HC1 to HC5 were measured for each time period.

The results are shown in Table 2 below.

fever 2 minutes 5 minutes 10 minutes 15 minutes 20 minutes HC1 75 85 94 101 97 HC2 88 93 108 105 101 HC3 89 96 112 113 109 HC4 80 89 98 104 100 HC5 78 85 88 100 98

(Unit: ℃)

According to Table 2, it was confirmed that the heating element composition according to HC2 to HC4 has excellent exothermic function, and, in particular, the heating efficiency of HC2 to HC3 at 100° C. or higher for about 10 minutes is high.

[Preparation Example 2: Preparation of antibacterial and deodorizing composition]

1. Preparation of Mixed Phase Inorganic Powder Dispersion

Fine powder šœgate, fine powder illite, fine powder zeolite, fine powder elvanite, fine powder bentonite, fine powder diatomite, fine powder germanium, fine powder loess, fine powder alum, and fine powder jade As shown in Table 3, inorganic powders were prepared.

In addition, the inorganic powder was prepared by mixing with a solution containing strontium ions (Sr ²⁺ ) and calcium ions (Ca ²⁺ ), heat-treating them for 1 hour, and mixing purified water.

T1 T2 T3 T4 T5 T6 T7 T8 T9 zeolite 100 100 100 100 100 100 100 100 100 sœguide 100 30 30 30 10 20 40 60 80 elvan stone 100 - 30 30 10 20 40 60 80 bentonite 100 - - 30 10 20 40 60 80 diatomaceous earth 100 - - - 30 50 75 100 125 germanium 100 - - - - 5 10 20 30 ocher 100 - - - - 5 10 20 30 alum 100 - - - - 5 10 20 30 jade 100 - - - - 5 10 20 30

(Unit: parts by weight)

2. Preparation of natural extracts

After washing, drying, and pulverizing the dolphins. The pulverized product was mixed with water and maintained at 98 to 100° C. for 2 hours, cooled and filtered with Whatman filter paper to prepare a Gatsodolpi extract (PE).

In the case of large rake and serrata rake, a rake rake extract (VE) and a horn rake extract (SE) were prepared by using the same method as the preparation method of the extract (PE).

Thereafter, a complex extract was prepared by mixing natural extracts as shown in Table 4 below.

MX1 MX2 MX3 MX4 MX5 MX6 PE 100 100 100 100 100 100 VE - 30 40 50 60 70 SE - 30 40 50 60 70

(Unit: parts by weight)

[Experimental Example 2: Effect Experiment on Mixed Inorganic Powder Dispersion]

1. Antibacterial effect test

According to the KS 0693 - 1990 test method, Staphylococcus aureus, which is generally present on human skin and nasal surfaces, was used as a strain, and 10 ⁶ were inoculated against cotton and PET, and mixed inorganic powder dispersions (T1 to The antibacterial degree of the fabric against T9) was measured.

The antibacterial effect is shown in Table 5 below.

[Evaluation Table]

◎: Amount of microorganisms 10 ³ or less

○: Amount of microorganisms 10 ⁴ or less

△: Amount of microorganisms 10 ⁵ or less

T1 T2 T3 T4 T5 T6 T7 T8 T9 antibacterial △ △ △ ○ ○ ○ ◎ ◎ ○

According to the antibacterial activity evaluation, it was confirmed that excellent evaluation was shown in T7 and T8.

2. Deodorization Effect Experiment

The deodorizing effect of the mixed inorganic powder dispersion (T1 to T9) of the present invention was investigated by using the KS M 0062:2004 test method at the Korea Living Environment Research Institute. Specifically, a photocatalytic coating specimen of the mixed inorganic powder dispersion (T1 to T9) and a certain amount of ammonia were injected in a 5 liter chamber, and then the concentration of residual ammonia over time was analyzed to calculate the deodorization rate. .

The conditions used for the experiment are as follows.

T1 T2 T3 T4 T5 T6 T7 T8 T9 deodorization rate 60 65 69 74 80 88 97 94 89

(unit: %)

As a result of the measurement, as shown in Table 6, it was confirmed that the mixed inorganic powder dispersion of the present invention exhibits a deodorizing effect by removing 60 to 90% or more of ammonia, the main culprit of living odors, based on the initial concentration.

In particular, it was confirmed that 90% or more was removed from T7 and T8, indicating an excellent deodorizing effect.

[Experimental Example 3: Effect Experiment on Inorganic Powder Containing Natural Extracts]

1. Antibacterial effect test

The complex extracts of MX1 to MX6 were adsorbed to the T7, and the antibacterial effect of each mixture was tested by dispersing it in purified water. The test method was carried out in the same manner as the antibacterial effect experiment on the mixed inorganic powder dispersion, and the results are shown in Table 7 below for comparison with the relative effect on the mixed inorganic powder dispersion (T7).

For the antibacterial effect compared to T7, T7 was set as an index of 5, and the antibacterial effect of MX1 to MX6 was evaluated as an index of 1 to 10. It will be said that the higher the index, the better the antibacterial effect.

T7 MX1 MX2 MX3 MX4 MX5 MX6 antibacterial 5 5 6 7 8 10 7

(Unit: Index)

According to the comparison of the antibacterial activity of the mixed phase inorganic powder dispersion (T7), it was confirmed that excellent evaluation was shown in MX4 and MX5.

This will mean that the antibacterial effect is excellent due to the complex action between each component when used as a natural complex extract compared to the case of using only the mixed inorganic powder dispersion.

2. Deodorization Effect Experiment

The complex extract of MX1 to MX6 was adsorbed to the T7, and the deodorizing effect of each mixture was tested by dispersing it in purified water. The test method was carried out in the same manner as the deodorization effect experiment on the mixed inorganic powder dispersion, and the results are shown in Table 8 below compared to the relative effect on the mixed inorganic powder dispersion (T7).

The T7 was set as an index of 5, and the deodorizing effect of MX1 to MX6 was evaluated as an index of 1 to 10. It will be said that the higher the index, the better the deodorization effect.

T7 MX1 MX2 MX3 MX4 MX5 MX6 deodorization rate 5 5 6 7 8 9 7

(Unit: Index)

As a result of the measurement, as shown in Table 8, it was confirmed that MX4 and MX5 showed excellent evaluation according to the comparison of the deodorizing effect of the mixed inorganic powder dispersion (T7).

This will mean that the deodorizing effect is excellent due to the complex action between each component when used as a natural complex extract compared to the case of using only the inorganic powder dispersion of the mixed form.

Although preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention as defined in the following claims are also provided. is within the scope of the

100: first cover
200: second cover
201: water inlet

Claims (8)

a first cover having an internal accommodating space;
a second cover sealing the first cover while accommodating it and forming a water inlet through which water is introduced into either the front or rear surface; and
Including a heating element composition filled in the receiving space,
The first cover and the second cover are coated with an antibacterial and deodorizing composition,
The antibacterial and deodorizing composition includes an inorganic powder and a natural extract,
The natural extracts are Gaetsodolpi extract, Greater rake extract, and Seondaeng rake extract.
Portable fever pack. The method of claim 1,
The heating element composition includes calcium oxide (CaO), aluminum (Al) and calcium hydroxide
Portable fever pack. The method of claim 1,
The first cover and the second cover are selected from the group consisting of polyethylene (PE), polypropylene (PP) and stretched polypropylene (OPP).
Portable fever pack. delete The method of claim 1,
The inorganic powder includes fine powder shungite, fine powder illite, fine powder zeolite, fine powder elvanite, fine powder bentonite, fine powder diatomite, fine powder germanium, fine powder ocher, fine powder alum, fine powder jade, and these Which is selected from the group consisting of a mixture of
Portable fever pack. The receiving space is formed therein, the upper body is open;
a heating pack accommodating part detachably coupled to the lower part of the main body and positioned at the lower part of the main body;
The heating pack accommodating part accommodates the heating pack,
a food receiving part inserted into the body through the upper part of the body; and
and a cover that opens and closes the upper part of the main body and has a plurality of gas outlets;
The heat pack
a first cover having an internal accommodating space;
a second cover sealing the first cover while accommodating it and forming a water inlet through which water is introduced into either the front or rear surface; and
To include a heating element composition filled in the receiving space,
By filling the space between the inside of the main body and the food accommodating part with water, the heating pack accommodated in the heating pack accommodating part reacts with water to generate heat,
The food contained in the food receiving unit is heated by the generated heat,
The first cover and the second cover are coated with an antibacterial and deodorizing composition,
The antibacterial and deodorizing composition includes an inorganic powder and a natural extract,
The natural extracts are Gaetsodolpi extract, Greater rake extract, and Seondaeng rake extract.
Portable heating box with heating pack. delete Section 1 A portable heating pack according to any one of claims 3 to 5, comprising
Portable heating cup.

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