KR100837037B1 - A means of deodorization of shoes case - Google Patents

Abstract

A deodorizing unit of a shoe case is provided to make the VOC components of the acid smell and the alkali smell emitted from a shoe react sufficiently through contact with two kinds of catalysts. An acid smell decomposing catalyst and an alkali smell decomposing catalyst are applied to the circulation paths of an intake duct and an exhaust duct(4) and to the inner surfaces of a shoe receiving chamber(2) in an effective area, separatedly. The acid smell decomposing catalyst area and the alkali smell decomposing catalyst area are alternatingly distributed on the inner surface of the entire space of the shoe case. The acid smell decomposing catalyst is nano-platinum catalyst and the alkali smell decomposing catalyst is titanium phosphate catalyst.

Description

Deodorizing means of shoe box {A MEANS OF DEODORIZATION OF SHOES CASE}

1 is an exemplary view of a shoe rack applying the present invention

Figure 2 is an illustration of the air circulation duct coated with acidic odor resolution catalyst

Figure 3 is an exemplary cross-sectional view of a shoe storage chamber coated with an alkaline odor resolution catalyst

[Code Description of Important Parts of Drawing]

Reference Signs List 1: shoe cabinet 2: shoe storage room 3: air supply duct 4: exhaust duct

Pt: Platinum Catalyst T: Titanium Phosphate Catalyst

In general, such as an apartment, if you put a shoe closet in the room or take off the shoes, there is a problem that the irritating shoe odor is difficult to put into the interior space to harm the indoor environment to be comfortable.

The smell from the shoebox is mainly the smell of sweat of the feet, lower fatty acids such as cypric acid, caproic acid, iso valeric acid, butyric acid, mercaptan, amine, ammonia and trace hydrogen sulfide, and aldehydes (VOC). It is a perishable odor of anaerobic microorganisms parasitic in odors and air.

As a deodorization method to remove the smell of shoes, such as physical adsorption method that adsorbs organic odor components with adsorbent, chemical adsorption method that adsorbs odorous substances with nano metal, neutralization method by spraying chemicals and neutralizing them, fragrance solution (香液) The fragrance spraying method which sprays), the deodorization by ozone, etc. are used.

For example, a shoe rack equipped with a deodorizing means of the prior art is provided with a heating means and a circulation means of the air in the shoe rack, while putting shoes worn during the day in the shoe rack, such as sweating of the feet soaked in the shoes by proper heat and air circulation. There is a thing which dried moisture.

This is a shoebox of a simple structure, it is possible to dry the moisture of the shoe, but because the smell of shoes emitted from the shoebox installed in the room is not removed, there is a problem that the air must be ventilated from time to time.

In order to remove the odor emitted from the shoe rack, a platinum catalyst filter, a manganese catalyst filter, a ceramic catalyst filter, or a filter made of various materials alone or on the air inlet or exhaust port of the shoe rack provided with air circulation means, or It is installed so as to be overlapped in combination, so that the odor component is adsorbed, filtered, and deodorized in the process of passing through the filter mechanism when air is circulated through the air supply duct and the circulation duct.

However, even if platinum catalyst or manganese catalyst has resolution of VOC component, air containing odor passes instantaneously through narrow section of filter, so contact time between physical filter material and odor component may occur. Almost without, there was a defect that the deodorizing effect was not high because it passes through.

In addition, adsorbents such as granular activated carbon, such as granular activated carbon, spherical activated carbon, and ceramic balls, which are filter materials, have the ability to adsorb odors under sufficient contact with air, but some of the malodorous components that have been saturated and adsorbed according to temperature changes over time. This release causes secondary odor to be emitted or leads to super saturation (breakthrough), and the deodorizing ability is almost lost. Therefore, there is a problem in that the cumbersome inconvenience of replacing the filter material from time to time and the maintenance and maintenance cost of the filter mechanism are continuously required.

In addition, the decomposition of odor components by ozone is quick and powerful, but because it is harmful to the human body, ozone should be used at a concentration of 0.05 ppm or less, which is not harmful to the human body. There is a problem that adds an economic burden.

An object of the present invention, in the shoe cabinet equipped with the air circulation means, in order to deodorize the shoe odor, the catalyst having a high resolution of acidic smell and the catalyst having a strong resolution of alkaline odor, the circulation passage of the shoe closet, shoe storage room The inner surface of the shoebox is coated with an effective area, and the acidic odor resolution catalyst area and the alkaline odor resolution catalyst area are alternately distributed in a planar manner on the inner surface of the entire shoe box space so that the air inside the shoe box repeatedly crosses the two catalyst areas by circulation means. In order to provide a deodorizing means of shoeboxes, the complex VOC component of acidic and alkaline odors emitted from the shoes in the circulation process reacts sufficiently with the two types of catalysts by surface contact.

Another object of the present invention is to provide a deodorant shoe box that can be used more easily and hygienically without antibacterial deodorant odor is secured by the acidic odor decomposition catalyst and alkaline odor decomposition catalyst distributed in the shoe box.

Particularly, the shoe racks disclosed in Korean Patent Application Publication No. 10-2005-0120728 (published on December 23, 2005) and Utility Model Registration No. 20-0447782 (published on September 29, 2006), to which the applicant has been registered, have a plurality of shoe storage rooms and air supply. The circulating passage of the duct and the exhaust duct is provided, and the air circulated by the fan is adsorbed by the filter mechanism installed in the exhaust port of the exhaust duct. The odor of the shoe box can be completely removed by the synergy of some deodorizing function by the mechanism and the deodorizing function of the present invention.

That is, the present invention distinguishes a catalyst having a high resolution of acidic smell and a catalyst having a high resolution of alkaline smell, and coating the effective surface on the circulation passage of the air supply duct and the exhaust duct and the inner surface of the shoe storage compartment of the shoe ward, An acidic odor decomposition catalyst region and an alkaline odor decomposition catalyst region are arranged in a planar alternating manner in the entire space.

At this time, the shoe storage cabinet may be an acidic odor decomposition catalyst region, and the circulation passage may be arranged in an alkaline odor resolution catalytic region.

Acid odor resolution catalysts in the present invention are well known nano platinum, nano manganese, nano silver, nano palladium, nano nickel, etc. Alkaline odor resolution catalysts are titanium phosphate, grafttone (trade name of YOO Japan), titanium oxide, zinc oxide, zeolite Ceramic powder, visible light responsive photocatalyst, and the like are used.

Coating the effective total area of the two catalysts in the present invention at a flow rate of a given air is 30cm ² ~350cm ² per area 1000cm ^3. The overall area of the inner surface of most shoe racks is larger than the effective area described above, so that the effective area of catalysis is secured by coating the front surface of the shoe compartment and the air supply duct and the exhaust duct. If the area of the catalyst area is smaller than the effective area, the contact time between the air circulated at a constant flow rate and the catalyst is shortened and the deodorizing effect is low. In such a case, the inner wall of the shoe box may be made of corrugated or channel-shaped plates as a means for increasing the surface area so as to secure an effective area of the catalyst. Since the corrugated plate is formed in the longitudinal direction, the coating area of the catalyst can be increased without giving the air flow resistance, thereby securing an effective catalyst area.

The present invention focuses on allowing the complex components of the shoe odor to sufficiently decompose and react with two different catalysts in the process of circulating through the two different catalyst zones.

The internal air of the shoe box to which the deodorizing means of the present invention is applied is circulated at a flow rate of 0.1 to 5 m / sec by the fan of the circulation mechanism. At this time, it operates with a system that newly supplies external air having a capacity of 1 to 5% per hour to the inside of the shoe box and discharges the internal air of the shoe box to the outside by the newly supplied air amount.

The air of the shoe rack is introduced into each shoe storage room through the air supply duct, and the air introduced into the shoe storage room is circulated to the circulation mechanism through the exhaust duct, including the odor component emitted from the shoes, and then the air supply duct and the shoe storage room again. And repeatedly circulate through the exhaust duct. The acidic and alkaline odor decomposing catalyst zone is planar toward the air circulation passage, so the VOC of the complex odor of the acidic and alkaline odors in the circulation process where the air crosses the two catalytic zones repeatedly repeatedly. The component is in surface contact with the two catalysts for a sufficient time.

This is different from the conventional nanoplatinum catalyst applied to a thin filter material, but the fluid passes through the cross section of the catalyst instantaneously, so that the deodorizing function of the catalyst is not exerted. It is possible to maintain contact so that the deodorizing function of the catalyst can be effectively exhibited.

Therefore, lower fatty acid components such as cypric acid, caproic acid and iso valeric acid and aldehydes are absorbed and decomposed mainly by the reaction of acid odor decomposing catalyst such as nano platinum, and mercaptan in shoe odor. Alkaline components such as amines, amines, ammonia and hydrogen sulfide are mainly adsorbed and decomposed by alkaline odor decomposing catalysts such as titanium phosphate.

Of course, the two catalysts do not react only to each of the odorous components described above, but react to a wider range of components, so that the complex components of the shoe odor are adsorbed well by mutual organic synergy in the area of these catalysts. Decompose

If the odor component is decomposed, there is no odor due to chemical component change and eventually deodorizes effectively. These adsorption and decomposition actions are well known to occur due to the surface energy activity of these catalysts.

In addition, since the nanoplatinum catalyst and titanium phosphate catalyst have a strong ability to inhibit the growth of microorganisms and harmful bacteria, the interior of the shoebox coated with these catalysts is secured as a kind of antibacterial area, so that the microorganisms do not have a perishable odor.

Table 1 is a table of time-sorption adsorption decomposition tests for titanium phosphate catalyst and nano platinum catalyst, respectively, in which 50 ppm of formaldehyde was injected into a wooden chamber of a constant size (50 cm ³ ).

Table 1 Formaldehyde concentration (ppm) change test table

In Table 1, formaldehyde is completely desorbed and decomposed after 18 hours of nanoplatinum catalyst.

Table 2 is a table of time-sorption tests of titanium phosphate catalyst and nano platinum catalyst by injecting 50 ppm of ammonia gas into a wooden chamber of constant size (50 cm ³ ).

[Table 2] Test Table for Ammonia Concentration (ppm)

In Table 2, it can be seen that the titanium phosphate catalyst is completely decomposed and extinguished after 10 hours and has a relatively higher adsorptive decomposition capacity.

In the present invention, since the acidic odor decomposing catalyst area and the alkaline odor decomposing catalyst area are alternately arranged in a plane opposite to the air circulation passage of the shoe ward, the circulating air repeatedly crosses the two catalyst areas in the shoe ward. In the process of circulation, the complex components of the shoe odor effectively react with these catalysts by sufficient surface contact and effectively deodorize.

The nanoplatinum catalyst and the titanium phosphate catalyst used in the present invention are not volatile substances and are flatly fixed to the inner surface of the shoe box, so there is no disappearance of the catalyst during the use of the shoe box. In addition, since these catalysts do not have a supersaturation shape of the adsorption due to the reaction, the deodorizing function is continuously maintained for a long time.

In addition, if the present invention is applied to a conventional shoe closet, in addition to a part of the deodorization function by the existing filter mechanism installed in the shoe closet, it is possible to completely deodorize the shoe odor by the synergy of the deodorization according to the present invention.

Therefore, even if the shoe box is used indoors, the smell of the shoe does not occur, and there is no fear of contaminating indoor air, and shoes can be worn more hygienically, and the shoe box can be used sanitarily.

(Example)

1 to 3 is an exemplary view of the shoe rack of the Utility Model Registration No. 20-027782 applying the deodorizing means of the present invention. The shoe box 1 has an air supply duct 3 associated with a circulation mechanism F, in which a plurality of storage chambers 2 for storing shoes are arranged up, down, left and right, and supply and circulate air through the air supply port n by a fan. And an exhaust duct 4 which circulates air in the storage chamber 2 through the inlet port u. The inlet u has a built-in ordinary filter mechanism.

The shoe box is one exemplary shoe box embodying the present invention and is not limited to this structure, it is possible to implement a shoe box of another structure.

The present invention is coated with 100ppm nano platinum catalyst (Pt) having a strong resolution of acidic smell on the inner surface of the circulation passage of the air supply duct (3) and the exhaust duct (4) of the shoe box 1 and the alkaline odor resolution is A strong titanium phosphate catalyst (T) is coated on the inner surface of the shoe storage compartment (2), so that the nanoplatinum catalyst region and the titanium phosphate catalyst region are distributed in a planar manner on the inner surface of the entire shoe box 1. The total effective surface area of the coating is 30cm ² ~350cm ² per area 1000cm ^3. The 30 cm ² is the minimum area capable of exhibiting catalytic capacity and 350 cm ² is the total area of the catalyst coating exposed to air.

The shoe box to which the present invention is applied circulates air at a flow rate of 0.1 to 5 m / sec using a fan installed in the circulation mechanism (F). According to the operation of the fan, the air introduced into the air supply port n is supplied to the shoe storage compartment 2 through the air supply duct 3, and the air introduced into the storage compartment 2 is exhausted through the air intake port u. It is introduced into the circulation mechanism (F) via (4) and then circulated repeatedly. At this time, it is preferable to supply an air amount of about 5% per hour with respect to the internal air amount of the shoe box and discharge the air in the shoe box to the outside by the amount of air introduced.

In the circulation of air, the complex components of the VOCs of the shoe odor emitted from the shoes stored in the storage compartment 2 of the shoe rack 1 are conveyed to the circulating air, so that the air supply duct 3 and the exhaust duct 4 In the cycle of continually and repeatedly crossing the nano platinum catalyst (Pt) region and the titanium phosphate catalyst (T) region of the storage compartment (2), the organic composite component of the shoe odor and the catalyst are allowed to react for a sufficient time. Surface contact is maintained. The complex components of the organic compound of the shoe odor are adsorbed by the reaction of the nano platinum catalyst and the titanium phosphate catalyst, respectively, and the molecules are decomposed and deodorized. This reaction of the catalyst is due to the activity of the surface energy of the catalyst.

In addition, since nano platinum catalyst and titanium phosphate catalyst have strong antimicrobial activity inherently, the shoe box is secured as an antimicrobial area, and the propagation of microorganisms and harmful bacteria is suppressed, so that the decaying odor of bacteria does not occur in the shoe box.

Therefore, the shoes stored in the shoe box can be dried and deodorized the next day, so that they can be worn with a refreshing feeling and promote the health of the feet.

In addition, since nano platinum catalyst and titanium phosphate catalyst are not volatile substances, the odor deodorization function is maintained for a long time after being fixed flat on the inner surface of the shoe box. Therefore, the catalyst does not reach the supersaturation state due to the reaction.

In addition, the distribution area of the nanoplatinum catalyst area and the titanium phosphate catalyst area on the inner surface of the shoe box can be carried out at the same ratio or adjusted with each other.

In addition, the catalyst can be used for a long time with almost the same life as the shoe rack without replacement.

In addition to the above-described nanoplatinum catalyst and titanium phosphate catalyst, one or two or more catalysts may be selectively used in combination with the acidic odor decomposition catalyst and the alkaline odor decomposition catalyst.

In the present invention, since the nanoplatinum catalyst and the titanium phosphate catalyst are distributed in a planar direction toward the air circulation passage of the shoe rack, the shoe odor is reduced in the circulation process where the circulation air crosses the two catalyst regions repeatedly in the shoe rack. The complex components maintain sufficient surface contact with these catalysts to effectively react and deodorize effectively.

In addition, nano platinum catalyst or titanium phosphate catalyst can maintain deodorizing function continuously for a long time because there is no supersaturation of adsorption according to the reaction.

In addition, if the present invention is applied to the existing shoe closet, in addition to some deodorization function by the existing filter mechanism installed in the shoe closet, since the deodorization of the shoe is possible by the synergism of the deodorization according to the present invention, the shoe closet is used indoors. No smell of shoes, there is no fear of contaminating indoor air.

In addition, the shoe box has strong antibacterial properties by using nano platinum catalyst and titanium phosphate catalyst, so it doesn't have harmful odor, so you can wear shoes that are more hygienic and more useful than conventional shoe boxes. It works.

Claims (3)

The acid odor resolution catalyst and the alkaline odor resolution catalyst are classified into effective areas on the circulation passages of the air duct and exhaust duct of the shoe box and the inner side of the shoe storage compartment, and the acid odor resolution catalyst area and the alkaline resolution of the inner space of the shoe ward. By decentralizing the catalyst area in a planar manner, in the circulation process in which the air inside the shoe box crosses the two catalyst areas repeatedly, the deodorant of the shoe box is characterized in that the complex components of the shoe odor are adsorbed and decomposed by the catalyst. Way. The deodorizing means of claim 1, wherein the acidic odor decomposition catalyst is a nano platinum catalyst and the alkaline odor decomposition catalyst is a titanium phosphate catalyst. delete

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