KR20070054525A - Drying apparatus with a steam generator - Google Patents

Abstract

The present invention is a cabinet in which the laundry opening is formed; A drum installed inside the cabinet, in which laundry is placed; And installed in the cabinet to supply steam to the drum, the drum including a water supply hose, a steam generator connected to the water supply hose, a steam outlet for supplying steam to the drum, and a steam supply hose connecting the steam generator and the steam outlet. It provides a drying apparatus having a steam generator, comprising; a steam flow path for exposing the steam supplied to the kimchi lactic acid bacteria fermentation.

Drying device, steam generator, kimchi lactic acid bacteria fermentation, antibacterial, washing machine, dryer

Description

Drying Unit with Steam Generator {DRYING APPARATUS WITH A STEAM GENERATOR}

1 is a view showing an example of a drying apparatus according to the present invention,

2 shows another example of a drying apparatus according to the present invention;

3 and 4 are views showing an example of a steam generator,

5 is a view showing an example of the configuration of the steam flow path according to the present invention.

<Explanation of symbols on main parts of the drawings>

10 cabinet 11 door

13: inlet 15: water supply valve

20: tub 25: water supply hose

30: drum 50: steam generator

53: steam supply hose

The present invention relates to a drying apparatus having a steam generator (for example, a washing machine, a dryer), and more particularly to a drying apparatus having a steam generator, comprising a steam flow path for exposing steam supplied into a drum to kimchi lactic acid bacteria fermentation product. It is about.

Recently, as interest in the environment increases, there is a growing demand for satisfying hygiene and eco-friendliness by providing antibacterial activity to household appliances that are directly related to human hygiene. Examples of household appliances requiring hygiene and cleanness include refrigerators, washing machines, air conditioners, vacuum cleaners, dryers, electric pots, rice cookers, dishwashers, dish dryers, microwave ovens, VTRs, computers, and televisions.

In order to impart antimicrobial properties to the above-mentioned home appliances, in general, organic and inorganic antimicrobials are used, but in the case of organic antimicrobials, it is difficult to sustain the effect, and there is a problem in that the stability to the human body is low.

Kimchi Lactic Acid Bacteria Fermented Kimchi, a Korean traditional food fermented at low temperature by fermenting radish, Chinese cabbage and cucumber, or pickled with red pepper, garlic, green onion, ginger, salted fish and seasonings As it appears in the fermentation process of the natural origin, it is ingested in humans for a long time, its stability is secured, it is easy to learn, economical, high antimicrobial power, and antibacterial spectrum is known as a wide range of natural antimicrobial substances.

Furthermore, as a result of recent research, it has been found that the fermented kimchi lactic acid bacteria is effective in combating viral diseases of poultry such as bird flu, and the present inventors have focused on the antibacterial and antiviral effects of the fermented kimchi lactic acid bacteria. .

The present invention focuses on the antibacterial and antiviral effects of fermented kimchi lactic acid bacteria, while considering the structural characteristics of a drying apparatus (eg, a washing machine and a dryer) equipped with a steam generator, steam supplied into the drum may be added to the kimchi lactic acid bacteria fermentation product. It is an object of the present invention to provide a drying apparatus having a steam generator, including a steam passage to be exposed.

To this end, the present invention is a cabinet formed with an inlet for laundry; A drum installed inside the cabinet, in which laundry is placed; And installed in the cabinet to supply steam to the drum, the drum including a water supply hose, a steam generator connected to the water supply hose, a steam outlet for supplying steam to the drum, and a steam supply hose connecting the steam generator and the steam outlet. It provides a drying apparatus having a steam generator, comprising; a steam flow path for exposing the steam supplied to the kimchi lactic acid bacteria fermentation.

Here, the drying apparatus may be a washing machine or a dryer, and the exposure of the steam to the kimchi lactic acid bacteria fermentation may include coating all or a portion of the steam flow path with kimchi lactic acid bacteria fermentation, or may include all or part of the steam flow path with kimchi lactic acid bacteria fermentation. By forming a material, or by providing a filter containing kimchi lactic acid bacteria fermentation product in the steam flow path, or supplying liquid or powdered kimchi lactic acid bacteria fermentation product to the steam, the supply of water through the water supply hose is It may be made by a separately provided water supply tank, and any method of generating steam in the steam generator may be any method capable of generating steam from water, such as heating, ultrasonic waves, and the use of a nozzle.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing an example of a drying apparatus according to the present invention, the drying apparatus is a cabinet 10 forming an appearance, a cylindrical tub 20 supported in the cabinet 10 to store the wash water, and a tub A drum (30) rotatably installed in the laundry (20) on which laundry is placed, a driving motor (not shown) for driving the drum (30), and a steam generator (50) for supplying steam into the drum (30). It is configured to include.

The cabinet 10 is provided with an inlet opening 13 communicating with the inside of the drum 30 so that laundry can be introduced into and withdrawn from the front surface thereof, and the door 11 is pivotably installed forward to open and close the inlet opening 13. do. On the other hand, one side of the drum washing machine is provided with a water supply valve 15 and a water supply hose 25 connected to an external water pipe (not shown) for supplying wash water to the tub 20.

Steam generator 50 is connected to the water supply hose 25, the water flows in, and the water stored in the inside to generate steam to supply to the drum 30, and to one side of the steam generator 50, steam A steam supply hose 53 serving as a passage for guiding and injecting steam generated by the generator 50 into the drum 30 is installed. The steam supply hose 53 preferably has an end portion (steam outlet) formed in the shape of a nozzle so that steam can be smoothly injected into the internal space of the drum 30, and an end of the drum 30 is discharged. It is preferable to be installed so as to be exposed to the inside.

An operation panel 18 is provided on the front upper side of the cabinet 10, and the operation panel 18 cooperates with a control means (not shown) to control each operation of the drying apparatus. Preferably, when the user needs using the operation button 19, the operation of the steam generator 50 and the container 100 containing the kimchi bacteria to be described later to adjust the operation so that the kimchi bacteria are supplied to the drum 30 together with the steam. Can be.

2 shows another example of a drying apparatus according to the invention, in which a water supply hose 25, a steam generator 50, a steam supply hose 53, and a nozzle 35 are shown, which are in accordance with the invention. Form a vapor flow path.

3 and 4 illustrate an example of a steam generator, in which the steam generator 50 is coupled to an upper surface of the lower housing 81 and an upper surface of the lower housing 81 to form a space for storing water. And an upper housing 82 and a heater 55 for heating the water stored in the steam generator 50.

The upper housing 82 is connected to the water supply valve 15 at one side to form a water inlet 52a through which water is introduced into the steam generator 50, and on the other side, the generated steam is supplied to the drum 20. The discharge port 52b connected to the steam supply hose 53 is formed.

The heater 55 is installed at the bottom of the upper housing 81, and when water enters the steam generator 50, the heater 55 operates to be directly heated while completely submerged in the water.

One side of the upper housing 82 is provided with a water level sensor 60 for detecting the water level of the water stored therein, and a temperature sensor 57 for measuring the temperature of the water and steam heated by the heater 55. In addition, the temperature sensor 57 measures the temperature of the steam generated by the steam generator 50 and cuts off the power of the heater 55 when the temperature is higher than the reference value to prevent overheating of the heater 55. The water level sensor 60 measures the water level of the water stored in the steam generator 50, so that the amount of water stored is always maintained at an appropriate level.

Steam generator 50 of the same structure can be applied to a dryer provided with a drum, the dryer is not connected to the water unlike the washing machine, the water supply hose 25 is connected to a separately provided water supply tank. In the washing machine, on the other hand, the water supply hose 25 may be configured to be connected to the water container.

In a drying apparatus such as a washing machine and a dryer, by providing the steam generator 50, steam can be supplied to the laundry, and the supplied high temperature and humid steam functions to remove wrinkles formed in the laundry.

The first embodiment of the present invention is to coat the kimchi lactic acid bacteria fermentation product on the steam flow path, or to shape the steam flow path to a material containing the kimchi lactic acid bacteria fermentation product, to provide antimicrobial properties to the steam flow path that is easily contaminated. Since the steam flow path is an environment that is easily contaminated as a flow path for high temperature and high humidity steam, it is intended to prevent contamination by treating kimchi lactic acid bacteria fermented product having antimicrobial properties to the flow path.

The method of coating or molding the steam flow path using the kimchi lactic acid bacteria fermentation will be described later.

The second embodiment of the present invention is directed to providing a filter (not shown) in which the kimchi lactic acid bacteria fermentation product is contained in the steam flow passage, thereby providing the antibacterial property to the steam and protecting the steam flow passage. The filter is preferably located on the upstream side of the steam flow passage from the viewpoint of protecting the steam flow passage, and may be located upstream and downstream from the viewpoint of imparting antimicrobial activity to the steam. Thus, a plurality of filters may be provided on the vapor flow path.

The filter containing the kimchi lactic acid bacteria fermentation will be described later.

A third embodiment of the present invention provides a steam, drying apparatus, and a container 100 containing a liquid or powdered kimchi lactic acid bacteria fermentation product on a vapor flow path to supply (provide) kimchi lactic acid bacteria fermentation product to steam. It relates to giving antibacterial property to laundry. The third embodiment of the present invention will be characterized by providing a kimchi lactic acid bacterium fermentation product continuously or selectively to steam and laundry by providing a conventional steam flow path, thereby providing antimicrobial activity. Preferably, as shown in Figure 5, the valve 101 is further provided for the selective supply of the kimchi lactic acid bacteria fermentation from the container 100, the operation of the valve 101 is a control means for controlling the whole washing process ( Not shown). In addition, an operation button 19 may be provided on the operation panel 18 to allow a user to select an operation of the valve 101.

A. Coating Method of Kimchi Lactic Acid Bacteria Fermentation 1

Coating Method 1 of Kimchi Lactic Acid Bacteria Fermentation is achieved by coating a mixed solution of kimchi lactic acid bacteria fermentation product and a binder on the surface of an object.

The kimchi lactic acid bacteria fermentation may be selected from the group consisting of a culture of kimchi lactic acid bacteria, a concentrate of the culture, dried products of the culture and a mixture thereof. The kimchi lactic acid bacteria may be selected from the group of lactic acid bacteria of the genus Leukonostoc (Leuconostoc), kimchi lactic acid bacteria of the genus Lactobacillus (Lactobacillus), kimchi lactic acid bacteria of the genus Weissella (Weissella) and mixtures thereof.

The binder may be selected from the group consisting of silicone modified acrylic resins, urethane resins, acrylic resins, and silicone resins.

The object may be various kinds of objects that bacteria, viruses, etc. may come into contact with and proliferate, and may constitute a filter.

The coating step may be made by spraying a mixed solution of kimchi lactic acid bacteria fermentation product and a binder on the surface of the object or immersing the object in the mixed solution.

Kimchi lactic acid bacteria fermented products appear during the ripening process of kimchi, can be used directly extracted from kimchi or purchased commercially available kimchi lactic acid bacteria and cultured, it can be used in any state without particular limitation. The kimchi lactic acid bacteria may be selected from the group consisting of lactic acid bacteria of the genus Leuconostoc , kimchi lactic acid bacteria of the genus Lactobacillus ( Lactobacillus ), kimchi lactic acid bacteria of the genus Weissella , and mixtures thereof. In particular, the kimchi lactic acid bacteria of the genus Leuconostoc ( Luconostoc ) is preferred, and among these, more preferred is Leuconostoc citreum ), Leuconostoc kimchii ( Leuconostoc kimchii ), Leuconostoc mesenteroides ( Leuconostoc mesenteroides ) and mixed fermentation of kimchi lactic acid bacteria selected from the group consisting of these. Most preferably, Leuconostoc citreum has the best antibacterial properties. The fermented product of the kimchi lactic acid bacteria may be any one selected from the group consisting of lactic acid bacteria culture solution, concentrated solution of the culture solution, dried product of the culture solution and mixtures thereof.

As the binder, a silicone modified acrylic resin, a urethane resin, an acrylic resin, a silicone resin, or the like may be used, and a plurality of binders may be used without being limited thereto. In the case of using a binder, not only can the kimchi lactic acid bacteria fermentation product be easily fixed to the object surface, but also improve the mutual binding force of the object surface and kimchi lactic acid bacteria fermentation to reduce the dissolution rate of the kimchi lactic acid bacteria fermentation to maintain the antibacterial performance.

The object according to the present invention may be any of various objects that may be in contact with or proliferate by bacteria or viruses. For example, thermoplastic resins, thermosetting resins, rubbers, metals, and the like may be used, and these materials may be used in various ways depending on the characteristics of the materials.

In addition, the object according to the invention may be an air purification filter. At this time, the object raw material is not particularly limited as long as it has a function as an air purification filter, its type, shape, size and manufacturing method thereof. For example, glass fibers such as glass fibers, ion exchange fibers, cellulose fibers, asbestos fibers, various organic fibers, and inorganic fibers may be used, and metals or plastics such as zinc, copper, and aluminum may also be used. Each can be used in various ways depending on the characteristics of the material. In addition, the shape can also be used as appropriately modified according to the air purification device to be applied without particular limitations such as honeycomb type, particle type, mesh type, filter paper type, cotton type, mesh type, plate type and foam type. The filter may be used in combination with or used in filters such as deodorization filters such as activated carbon filters, hepa filters, and automobile air purifiers. In addition, the object according to the invention can be applied to the water filter in addition to the air purification filter.

Coating the kimchi lactobacillus fermentation product on the object may be performed by mixing the kimchi lactobacillus fermentation product and the binder and spraying the mixed solution on the surface of the object, or immersing the object in a container containing the mixed solution. The preparation method of the mixed solution is not particularly limited as long as it can be mixed with the binder to the extent that the kimchi lactic acid bacteria fermentation may be coated on the object surface. The concentration of fermented kimchi lactic acid bacteria in the mixed solution is preferably 5 to 20% by weight, but is not limited thereto and may be appropriately adjusted according to need. The content ratio of the kimchi lactic acid bacteria fermentation product and the binder is not particularly limited, and may be appropriately adjusted as necessary.

On the other hand, as a pre-coating step may be added to clean the target object with a suitable washing water or to dry by heat treatment after cleaning. In addition, a step of drying by heat treatment after coating may be added. When drying an object, the drying time and drying temperature can be adjusted according to the shape, type, size, etc. of the object to be used. In some cases, when the object is a metal component, it is desirable to remove the oil component attached to the surface of the object during its manufacture or storage.

B. Coating Method of Kimchi Lactic Acid Bacteria Fermentation 2

Coating method 2 of the kimchi lactic acid bacteria fermentation is achieved by coating the surface of an object simultaneously or sequentially with kimchi lactic acid bacteria fermentation product, an inorganic antibacterial agent and a binder. The inorganic antimicrobial agent may comprise nano metal particles.

The nano metal particles may be metal particles having a sterilization function, and the metal particles may be silver (Ag), zinc (Zn), copper (Cu), platinum (Pt), iron (Fe), cadmium (Cd), or palladium. Particles such as (Pd), rhodium (Rh) and chromium (Cr), and may be used alone or in two or more alloys.

The coating step is performed simultaneously by i) spraying a mixed solution of kimchi lactic acid bacteria fermentation product and a binder, and an inorganic antimicrobial agent on the surface of the object or by dipping the object in the mixed solution, or ii) coating the inorganic antimicrobial agent on the object, It can be made sequentially by immobilizing kimchi lactic acid bacteria fermentation on the coated object.

The inorganic antimicrobial agent may be used without any particular limitation that is classified as an inorganic antimicrobial agent in the art. In particular, the inorganic antibacterial agent may include nano metal particles. Herein, the nano metal particles may be any kind as long as they are metal particles having a sterilizing function. For example, the metal particles are silver (Ag), zinc (Zn), copper (Cu), platinum (Pt), iron (Fe), cadmium (Cd), palladium (Pd), rhodium (Rh), chromium ( It is a particle | grains, such as Cr), and can be used individually or in 2 or more types of alloys. The nano metal particles represent nano metalized particles, and any metal particles atomized to nano size may be used without particular limitation on the method of manufacturing the metal particles. Such nano metal particles limit the growth of microorganisms by inhibiting the reproductive function of microorganisms such as bacteria and fungi, while penetrating into cells to stop the metabolism by stopping the function of enzymes required for microbial respiration, so that sterilization is possible. do. In particular, silver (Ag), zinc (Zn), and copper (Cu) metal particles are preferable from the viewpoint of antibacterial action, stability to the environment and the human body, and silver (Ag) is more preferable.

The process of coating kimchi lactic acid bacteria fermentation product and inorganic antibacterial agent on the object is performed by mixing the kimchi lactic acid bacteria fermentation product, inorganic antibacterial agent and binder and spraying the mixed solution on the surface of the object or placing the object in a container containing the mixed solution. By dipping. The method of preparing the mixed solution is not particularly limited as long as it can be mixed to the extent that the kimchi lactic acid bacteria fermentation product, the inorganic antimicrobial agent and the binder can be coated on the object surface. The concentration of fermented kimchi lactic acid bacteria in the mixed solution is preferably 5 to 20% by weight, but is not limited thereto and may be appropriately adjusted according to need. In addition, the inorganic antimicrobial agent is preferably in the range of 100ppm to 2000ppm or less, but is not limited thereto and may be appropriately adjusted and used as necessary. The content ratio of kimchi lactic acid bacteria fermented product, inorganic antimicrobial agent and binder is not particularly limited, and may be appropriately adjusted as necessary.

Alternatively, the coating process may be performed sequentially by first coating an inorganic antimicrobial agent on the surface of the object and then coating the kimchi lactic acid bacteria fermentation product on the silver-coated object. The coating of the inorganic antimicrobial agent on the surface of the object may be performed according to a conventional method in the art, and in some cases, it is necessary to change the state to a state suitable for coating the inorganic antimicrobial agent according to the characteristics of the object. In addition, the step of coating the kimchi lactic acid bacteria fermented product on the inorganic antimicrobial agent coated object may also be used without particular limitation if the method is generally used in the art. In order to coat the kimchi lactic acid bacteria fermented product on an inorganic antimicrobial-coated object, chemical and physical methods may be used to suit the purpose. In this case, any method can be used as long as the coating can be evenly applied to the surface of an object such as spraying or dipping.

Meanwhile, as a pre-coating step, the object may be washed with appropriate washing water or dried by heat treatment after washing. In addition, a step of drying by heat treatment after coating may be added. When drying an object, the drying time and drying temperature can be adjusted according to the shape, type, size, etc. of the object to be used. In some cases, when the object is a metal component, it is desirable to remove the oil component attached to the surface of the object during its manufacture or storage.

C. Molding Process of Kimchi Lactic Acid Bacteria

Forming method of the kimchi lactic acid bacteria fermented product is made by combining the kimchi lactic acid bacteria fermented product and raw materials. In addition, the outer layer may be molded with a blend of kimchi lactic acid bacteria fermented product and raw materials, and the inner layer may be formed only with a blend or raw material having a lower content of kimchi lactic acid bacteria fermented product than the outer layer.

The raw material is silicon (Silicone), polyurethane (Polyurethane), polystyrene (Polyethylene), polypropylene (Polypropylene: PP), polyvinyl chloride (PVC), latex (Latex), Acrylonitrile Butadiene Styrene: ABS), Polytetrafluoroethylene (PTFE), Polycarbonate (PC), Polyvinylalcohol (PVA), and mixtures thereof.

The mixing ratio of the kimchi lactic acid bacteria fermented product and the raw materials at the time of molding is not particularly limited and may be appropriately adjusted as necessary. The method of mixing the kimchi lactic acid bacteria fermentation product and raw materials is not particularly limited as long as it can be blended to the extent that the shape of the article can be molded. The concentration of fermented kimchi lactic acid bacteria is preferably 5 to 20% by weight, but is not limited thereto, and may be appropriately adjusted as necessary. In addition, when the nano-metal particles are added, the range of 100ppm to 2000ppm or less is preferable, but is not limited thereto, and may be appropriately adjusted and used as necessary.

The molding step includes a process of blending the kimchi lactic acid bacteria fermentation product and the raw material, preparing a mold for molding the article into a predetermined shape, and injecting the blend of kimchi lactic acid bacteria fermentation product into the mold to extrude or inject the mold. The method of mixing the kimchi lactic acid bacteria fermentation product and raw materials is not particularly limited as long as it can be blended to the extent that the shape of the article can be molded. Molding temperature is possible without particular limitation, but needs to be adjusted as necessary in consideration of the raw material properties of the article, and in consideration of the denaturation of kimchi lactic acid bacteria fermentation, etc. is suitable for 100 ℃ to 180 ℃.

In addition, the molding process may be performed by molding the outer layer with a blend of lactic acid bacteria fermented product and raw materials, and molding the inner layer with only a blend or raw material having a content of kimchi lactic acid bacteria fermented product lower than the outer layer. In general, the areas where bacteria or viruses are likely to come into contact with and proliferate are external to the medium through which bacteria and viruses, such as air or water, are transmitted, rather than inside of the product. It is possible to increase the direct antimicrobial effect while using the same amount of antimicrobial agent by intensively blending to the outside without compounding.

D. Encapsulation of Kimchi Lactic Acid Bacteria Fermentation

The method of encapsulating kimchi lactic acid bacteria fermentation is achieved by mixing and molding the kimchi lactic acid bacteria fermentation product capsule and raw materials. In addition, the outer layer may be molded with a blend of kimchi lactic acid bacteria fermented product capsule and raw materials, and the inner layer may be formed only with a blend or raw material having a lower content of kimchi lactic acid bacteria fermented product than the outer layer.

Kimchi lactobacillus fermentation capsules are encapsulated as selected from the group consisting of melamine, polyurethane, gelatin, acrylic, epoxy, starch, alginate, chitosan or mixtures thereof.

Kimchi lactic acid bacteria fermented product capsule is composed of core material and wall material.The core material uses antimicrobial agent, deodorant, fragrance, etc., and the wall material uses synthetic or natural polymer for thin film. To form micro or nano sized particles. The wall material may be used as long as it can contain kimchi lactic acid bacteria fermentation without particular limitation, for example, melamine, polyurethane, gelatin, acrylic, epoxy, starch, alginate, chitosan or mixtures thereof may be used. By encapsulating the kimchi lactic acid bacteria fermentation it is possible to block the possibility that the kimchi lactic acid bacteria fermentation product can be denatured at the molding temperature of the article and to further improve and maintain the antibacterial properties.

The molding process encapsulates the kimchi lactic acid bacteria fermentation product, mixes the encapsulated kimchi lactic acid bacteria fermentation product and raw materials, prepares a mold for molding the article into a predetermined shape, and injects the mixture of kimchi lactic acid bacteria fermentation product into the mold to extrude or inject It includes the process of molding. The method of mixing the kimchi lactic acid bacteria fermentation product and raw materials is not particularly limited as long as it can be blended to the extent that the shape of the article can be molded. Molding temperature is possible without particular limitation, but needs to be adjusted as necessary in consideration of the raw material characteristics of the article, and in order to prepare for denaturation with temperature, higher temperature conditions than the unencapsulated kimchi lactobacillus fermentation, For example, 100 ° C to 250 ° C is suitable.

In addition, the molding process may be performed by molding the outer layer with the kimchi lactic acid bacteria fermentation product capsule and the blend of the raw materials, and molding the inner layer with only the blend or raw material whose content of the kimchi lactic acid bacteria fermentation is lower than the outer layer. In general, the areas where bacteria or viruses are likely to come into contact with and proliferate are external to the medium through which bacteria and viruses, such as air or water, are transmitted, rather than inside of the product. It is possible to increase the direct antimicrobial effect while using the same amount of antimicrobial agent by intensively blending to the outside without compounding.

An example is given and described below. However, the following examples are merely to illustrate the invention, but the content of the present invention is not limited to the following examples.

Example  One

The aluminum mesh purchased from Air Deal was immersed in 2.5% NaOH for 3 minutes to remove oil. The oil-free aluminum mesh was then washed with 2.5% NaOH. This process was repeated seven times. The washed aluminum mesh thus obtained was heat treated for 2 hours in a drying oven temperature controlled to 40 ° C. Kimchi lactic acid bacteria fermented product, a silicone-modified acrylic binder was mixed to prepare a mixed solution, and then coated by spraying the mixed solution on the heat-treated aluminum mesh. As a result, an aluminum mesh coated with kimchi lactic acid bacteria fermented product was obtained.

Example  2

The bactericidal power was tested according to the method of KS M 0146-2003 in order to measure the antimicrobial activity of the strains of Escherichia coli, Staphylococcus aureus, and Pseudomonas aeruginosa coated with the Kimchi lactic acid bacteria fermented product obtained above.

In other words, Escherichia coli using a test apparatus of autoclave, bacterial culture thermostat, sterile box, colony counter, constant temperature bath, absorbance photometer coli ATCC 25922), Staphylococcus aureus ATCC 6538, and Pseudomonas The bactericidal power of each strain of aeruginosa ATCC 27853) was tested. The strain (1.0 ml each) is applied to an aluminum mesh filter (1.0 cm x 1.0 cm) which is a kimchi lactic acid bacteria fermentation-containing filter according to the present invention obtained in Example 1. Three controls (only three strains each inoculated) and three aluminum mesh filters were put in a Erlenmeyer flask and incubated at 35 ± 1 ° C. and 120 rpm for 3 hours. Then, the cells were separated, diluted in physiological saline, and plated at 37 ° C. for 48 hours, and the number of bacteria was confirmed. The results are shown in Tables 1 to 3.

Bactericidal activity against E. coli                     Cultivation time 0 1 hour later 2 hours later 3 hours later Control 1.5 × 10 ⁵ CFU / mL 1.6 × 10 ⁵ CFU / mL 1.7 × 10 ⁵ CFU / mL 2.0 × 10 ⁵ CFU / mL Aluminum mesh filter 1.5 × 10 ⁵ CFU / mL  <10 CFU / mL  <10 CFU / mL  <10 CFU / mL 99.9 99.9 99.9

Bactericidal activity against Staphylococcus aureus                        Cultivation time 0 1 hour later 2 hours later 3 hours later Control 1.3 × 10 ⁵ CFU / mL 1.5 × 10 ⁵ CFU / mL 1.8 × 10 ⁵ CFU / mL 2.2 × 10 ⁵ CFU / mL Aluminum mesh filter 1.3 × 10 ⁵ CFU / mL  <10 CFU / mL  <10 CFU / mL  <10 CFU / mL 99.9 99.9 99.9

Bactericidal activity against Pseudomonas aeruginosa                        Cultivation time 0 1 hour later 2 hours later 3 hours later Control sample 1.2 × 10 ⁵ CFU / mL 1.4 × 10 ⁵ CFU / mL 1.7 × 10 ⁵ CFU / mL 2.2 × 10 ⁵ CFU / mL Aluminum mesh filter 1.2 × 10 ⁵ CFU / mL  <10 CFU / mL  <10 CFU / mL  <10 CFU / mL 99.9 99.9 99.9

From Tables 1 to 3, it can be seen that the kimchi lactic acid bacteria fermentation-containing air purification filter according to the present invention is significantly improved bactericidal effect against microorganisms such as Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa.

In the above, the present invention has been described in detail by way of examples based on the embodiments of the present invention and the accompanying drawings. However, the scope of the present invention is not limited by the above embodiments and drawings, and the scope of the present invention will be limited only by the contents described in the claims below.

According to the present invention, by using the Kimchi lactic acid bacteria fermentation having a broad antimicrobial spectrum, the antibacterial activity is sufficiently exhibited in the drying apparatus and the laundry equipped with the steam generator, while the anti-viral virus caused by the excellent antiviral activity of the kimchi lactic acid bacteria fermentation It can provide antiviral effects in preparation.

In addition, according to the present invention, the high temperature, humid steam and kimchi lactic acid bacteria fermented product is in contact with the laundry, it is possible to further increase the effect of the sterilization of the laundry.

Claims (8)

A cabinet in which an input port through which laundry is input is formed; A drum installed inside the cabinet, in which laundry is placed; And, It is installed in the cabinet to supply steam inside the drum, and includes a water supply hose, a steam generator connected to the water supply hose, a steam outlet for supplying steam into the drum, and a steam supply hose connecting the steam generator and the steam outlet, And a steam flow path for exposing the steam to be exposed to the kimchi lactic acid bacterium fermentation product. The method of claim 1, Located on the steam flow path, the container containing the kimchi lactic acid bacteria fermentation; further comprising, a drying apparatus having a steam generator. The method of claim 1, The steam flow path is coated with kimchi lactic acid bacteria fermentation, characterized in that the drying apparatus with a steam generator. The method of claim 1, The steam flow path is coated with kimchi lactic acid bacteria fermentation, characterized in that the drying apparatus with a steam generator. The method of claim 1, The steam flow passage is provided with a filter containing the kimchi lactic acid bacteria fermentation, Drying apparatus provided with a steam generator. The method of claim 2, Installed in the cabinet, the kimchi lactic acid bacteria fermented product contained in the container through the steam outlet through the operation button for the user to select the user; further comprising; a drying apparatus having a steam generator. The method according to any one of claims 1 to 6, Drying apparatus with a steam generator, characterized in that the drying apparatus is a washing machine. The method according to any one of claims 1 to 6, Drying apparatus with a steam generator, characterized in that the drying apparatus is a dryer.

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