KR102188247B1 - Sterilizing device using nano-silver coating metal form - Google Patents

Abstract

The present invention relates to a sterilization device using a nanosilver-coated foam metal. First and second sterilizing members formed in a pair are provided at the inside of a passage, and contaminated air is firstly sterilized and is secondly sterilized through a UV lamp. Thus, since clean air is discharged, various viruses or the like can be effectively sterilized. The second sterilizing member is operated and is thus formed to be in close contact to or separated from the first sterilizing member. Thus, when the pollution degree of indoor air is low, the first sterilizing member and the second sterilizing member are brought into close contact with each other, and thus the flow of air is made to be rapid. When the pollution degree of indoor air is high, the first sterilizing member and the second sterilizing member are separated, and a stop space is formed. Thus, the flow of air is stopped, and sterilizing efficiency can be improved.

Description

Sterilizing device using nano-silver coating metal form}

The present invention relates to a sterilization device using a silver nano-coated foamed metal, and more specifically, a first and second sterilization member formed in two groups on the inside of the passage to sterilize contaminated air first and then through a UV lamp. Since clean air is discharged by second sterilization, various viruses, etc. are effectively sterilized, and the second sterilizing member is operated to be in close contact with or spaced apart from the first sterilizing member, so if the pollution of the indoor air is low, the first sterilizing member and the second Silver nano-coated foamed metal that increases the sterilization efficiency by making the air flow faster by attaching the sterilizing member and increasing the sterilization efficiency by forming a stagnation space while separating the first sterilizing member and the second sterilizing member when the indoor air is high. It relates to a sterilization device using.

At present, according to the current well-being trend to promote health of residents by sterilizing air in the house, the number of households installing air purifiers with sterilization function in the house is rapidly increasing.

Most of the air purifiers are installed in living rooms or rooms, but the most polluted places in the house are near entrances, such as the entrance, and the air purifier cannot cover such places with severe pollution. The reason the entrance is highly polluted is that people living in the house get polluted from outside. In fact, in the case of apartment houses, row houses, and villas, the most polluted place is the elevator interior space where everyone in the apartment complex enters and exits. Elevators are open/closed, but because all residents enter and exit and the doors are closed during elevation, the interior space is inevitably contaminated when sick or bacterial bearers board the elevator. In addition, when a healthy person boards a contaminated elevator, bacteria get on their clothes or body. Nevertheless, it is a reality that there are no devices that sterilize and remove harmful bacteria or bacteria in the interior space of the elevator.

Specifically, it is known that not only colds but also corona (COVID-19; coronavirus infection) and SARS (severe acute respiratory tract), which are currently a problem worldwide, are contaminated through the air.

In addition, since most elevator passageways are of a structure that cannot be cleaned, various pollutant substances such as dust and insect carcasses such as mosquitoes are accumulated over a long period of time, and the internal air is also quite polluted. The blower installed at the top of the elevator cage forcibly circulates the air inside the elevator passage into the elevator cage, so it can be seen that the air inside the elevator is more polluted than the outside.

Conventionally, a method of installing an ultraviolet sterilizing lamp in an elevator has been proposed, but this method installs an ultraviolet sterilizing lamp in a box that is completely blocked from the ventilation path of the blower, so the air sterilized by the ultraviolet rays irradiated from the sterilizing lamp is extremely limited. Has been. That is, the air inside the elevator that is sterilized by ultraviolet rays is limited to the air just below the ceiling. This is because the air near the sterilizing lamp is completely separated from the blower and does not convectively. Therefore, the effect of sterilizing the entire air inside the elevator was not seen at all.

Korean Patent Registration No. 10-0567670 (Registered March 29, 2006)

Accordingly, it was made in consideration of all the problems of the prior art as described above, and its purpose is to first and secondly sterilize contaminated air by providing first and second sterilization members formed in two groups on the inside of the passage and secondarily through a UV lamp. It is to provide a sterilization device using silver nano-coated foamed metal that effectively sterilizes various viruses and the like by discharging clean air by sterilization.

In addition, another object of the present invention is to operate the second sterilizing member to be in close contact with or spaced apart from the first sterilizing member, so if the pollution level of the indoor air is low, the first sterilizing member and the second sterilizing member are in close contact to speed up the flow of air. And, when the pollution degree of indoor air is high, it is intended to provide a sterilization device using a silver nano-coated foamed metal that increases sterilization efficiency by forming a stagnation space while separating the first sterilizing member and the second sterilizing member to stagnate the flow of air.

A sterilization device using a silver nano-coated foamed metal of the present invention has been devised to solve the above problems, including: a suction plate having a suction port; A sterilization unit made of an open-cell foamed metal containing silver nanoparticles so as to first sterilize contaminated air sucked through the suction plate by installing two first and second sterilizing members in a passage formed at the rear of the suction plate material; A suction fan that sucks air inside the elevator; A UV lamp for secondary sterilization of contaminated air by irradiating ultraviolet rays to the air first sterilized by the sterilization unit; It is characterized in that a discharge plate having a discharge port is configured to discharge clean air sterilized through the sterilization unit and the UV lamp.

The sterilization unit may include a first sterilization member installed in the passage; A second sterilizing member installed in front of the first sterilizing member; An operation member fixed to the second sterilizing member to make the second sterilizing member in close contact with or spaced apart from the first sterilizing member is provided. When the pollution degree of indoor air is low, the first sterilizing member and the second sterilizing member are in close contact with each other. If the flow of air is fast and the pollution of indoor air is high, a stagnation space is formed by separating the first sterilizing member and the second sterilizing member to stagnate the flow of air to increase sterilization efficiency, and the first and second sterilizing members are 10~ It is formed with pores of 100ppi, and the first sterilizing member is formed with pores smaller than that of the second sterilizing member.

Each of the first and second sterilizing members is provided with an uneven portion so as to engage with each other, and one side of the uneven portion has a guide surface formed to be inclined, and the guide surface of the second sterilizing member slides along the guide surface of the first sterilizing member. 2 It is characterized in that the air passing through the sterilizing member is guided along the guide surface to form a vortex in the stagnant space.

A guide member is further provided on one side of the passage so that the second sterilization member slides diagonally, one side of the second sterilization member is guided by a guide member, and the other side of the second sterilization member is slid by an operating member. It is characterized.

A perforated plate mounted at the front and rear of the sterilizing unit to adsorb and decompose harmful substances, wherein the adsorption unit has a plurality of through holes formed on both sides thereof and spaces formed therein; It characterized in that it is provided with an adsorbent inserted into the space inside the perforated plate.

According to the present invention, since the first and second sterilizing members formed in two groups in the passage are provided to first sterilize contaminated air and secondly sterilize through a UV lamp to discharge clean air, various bacteria or pathogenic viruses, etc. It has the effect of preventing infection.

In addition, according to the present invention, since the second sterilizing member is operated to be in close contact with or spaced apart from the first sterilizing member, if the pollution level of indoor air is low, the first sterilizing member and the second sterilizing member are in close contact to speed up the flow of air. If the pollution degree of indoor air is high, the first sterilizing member and the second sterilizing member are separated from each other to form a stagnation space to stagnate the flow of air to increase sterilization efficiency, thereby improving product reliability.

1 is a plan configuration diagram of the present invention.
2 is a perspective view showing the first and second sterilizing members according to the present invention.
3 is an operational state diagram of the present invention, which is a state diagram of sterilizing bacteria by closely contacting the first and second sterilizing members when indoor air pollution is low.
4 is an operational state diagram of the present invention, and is a state diagram of sterilizing bacteria by separating the first and second sterilizing members when the indoor air pollution is high.
5 is an enlarged view in which air is sterilized while forming a vortex in a stagnant space formed between the first and second sterilizing members according to the present invention.
6 is a photograph taken with a microscope of the present invention silver nano-coated foam metal.
7 is a state diagram of the present invention is installed in a built-in around the advertisement monitor installed inside the elevator.
8 is a state diagram in which the present invention is movably disposed inside an elevator.

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

1 is a plan configuration diagram of the present invention, Figure 2 is a perspective view showing the first and second sterilizing members of the present invention.

The sterilization device (A) using a silver nano-coated foamed metal of the present invention is largely composed of a suction plate material 100, a sterilization unit 200, a suction fan 300, a UV lamp 400, and a discharge plate material 500, It is mainly installed around the advertisement monitor (M) installed inside the elevator.

The suction plate member 100 has a plurality of suction ports 110 formed therethrough, and is provided in the up/down/left/right directions of the advertisement monitor M installed in the elevator.

In addition, the sterilization unit 200 is provided in front of the passage (S) formed between the suction plate material 100 and the discharge plate material 500, and the contaminated air sucked through the inlet 110 of the suction plate material 100 It plays the role of sterilizing the first.

In the sterilization unit 200, a first sterilizing member 210 is installed in the passage S, and a second sterilizing member 220 is installed in front of the first sterilizing member 210.

The first and second sterilizing members 210 and 220 are made of silver nano-coated open-cell foamed metal and formed with pores of 10 to 100 ppi, and the first sterilizing member 210 is more than the second sterilizing member 220 It is formed into small pores.

The first and second sterilizing members 210 and 220 may be made of open-cell foamed metal foamed by electrolyzing copper (Ccpper) in addition to silver nano coating.

That is, the air to be sterilized while passing through the second sterilizing member 220 does not directly pass through the first sterilizing member 210 but passes while being stagnated due to the difference in pores, so that the sterilizing power can be increased.

The first and second sterilizing members 210 and 220 are provided with uneven portions 211 and 221 to engage with each other, and one side of the uneven portions 211 and 221 is a guide surface 250 so as to be inclined. Is formed.

Even when the first and second sterilizing members 210 and 220 are spaced apart from each other, it is important that the guide surfaces 250 are not separated from each other and are partially in close contact with each other.

This is an important factor that enables smooth operation during the slide operation of the second sterilization member 220.

The second sterilizing member 220 is slid by the operation member 230 mounted on the sterilizing member 220 to be in close contact with the first sterilizing member 210 or spaced at a predetermined interval.

The operation member 230 is mounted on one side of the second sterilization member 220, and consists of either a cylinder or a motor method.

It is important that the guide surfaces 250 remain in close contact without being separated from each other so that the slide operation is smooth even when the first and second sterilizing members 210 and 220 are separated by a maximum distance.

When spaced apart from the first sterilizing member 210 by the operation of the second sterilizing member 220, a stagnation space 240 is formed between the first and second sterilizing members 210 and 220, and becomes a stagnation space 240. Since the guided air is guided along the guide surface 250, the passage time is stagnated while forming a vortex in the congestion space 240, thereby further enhancing the sterilizing power of the contaminated air.

In addition, the suction fan 300 is mounted at the rear of the sterilization unit 200 and serves to suck contaminated air inside the elevator.

In addition, the UV lamp 400 is a lamp that sterilizes by irradiating ultraviolet rays, and the suction fan 300 inhales air that has been sterilized primarily by the sterilization unit 200, and the UV lamp 400 ) Is irradiated with ultraviolet rays and sterilized secondarily.

The discharge plate 500 is provided at the rear of the passage S, and a plurality of discharge ports 510 are formed to discharge clean air sterilized through the sterilization unit 200 and the UV lamp 400 into the interior of the elevator. .

In addition, a guide member 600 for guiding one end of the second sterilizing member 220 may be further provided at one side of the passage S, and the passage of the other side of the operating member 230 of the sterilizing unit 200 ( S) is provided.

When the second sterilizing member 220 slides, the guide member 600 guides a stable slide operation, thereby enhancing the quietness and structural stability of the product.

In addition, the adsorption unit 700 is mounted on the front and rear sides of the sterilization unit 200 to adsorb and decompose harmful substances.

The adsorption unit 700 is provided with a plurality of through holes 711 on both sides and a porous plate 710 having a space therein, and an adsorbent 720 inserted into the space inside the porous plate 710 It is equipped.

The following describes the operating state of the present invention in detail as follows.

First, when the indoor air pollution level inside the elevator is low, the operation member 230 of the sterilization unit 200 is operated to slide the second sterilization member 220 toward the first sterilization member 210, and the second sterilization member 220 ) To the first sterilizing member 210 in close contact.

When the suction fan 300 is operated in this state, the contaminated air in the room is sucked into the adsorption unit 700 through the suction plate material 100, and the sucked contaminated air is an adsorbent 720 made of diatomaceous earth or zeolite. This causes antibacterial, deodorizing, deodorizing and absorbing pollutants.

In addition, while passing through the second sterilizing member 220 and the first sterilizing member 210 made of a silver nano-coated foamed metal in turn, various pathogenic viruses and bacteria such as coronavirus are first sterilized.

The primary sterilized air is antibacterial, deodorizing, deodorizing and absorbing pollutants by the adsorption unit 700 mounted at the rear of the sterilization unit 200, and the air passing through the adsorption unit 700 is a suction fan 300. It moves toward the UV lamp 400 through the passage (S) by the suction power of.

The air moved to the UV lamp 400 is secondarily sterilized by ultraviolet rays irradiated from the UV lamp 400.

The ultraviolet rays are divided into ultraviolet A (UVA), ultraviolet B (UVB), and ultraviolet C (UVC) according to their wavelength, and short-wave ultraviolet (UVC) with a short wavelength has strong sterilizing power and is used for sterilization and disinfection of empty hospital rooms or subway vehicles. Short-wave ultraviolet rays can remove more than 99.9% of coronavirus contained in droplets.

Using the currently allowed amount of far ultraviolet rays, the coronavirus can be eliminated in the air by 90% in 8 minutes, 95% in 11 minutes, 99% in 16 minutes, and 99.9% in 25 minutes.

The air that has been sterilized secondarily through the UV lamp 400 as described above is discharged into the elevator through the discharge port 510 of the discharge plate 500.

Therefore, by continuously providing clean air sterilized by the above process into the elevator, it is possible to fundamentally prevent bacterial infection such as various pathogenic viruses and coronaviruses.

In addition, as shown in Figs. 4 to 5, when the indoor air pollution level inside the elevator is high, the operation member 230 of the sterilization unit 200 is operated to change the second sterilization member 220 to the first sterilization member ( The second sterilizing member 220 is separated from the first sterilizing member 210 by sliding to be spaced apart from the side 210).

When the suction fan 300 is operated in this state, the contaminated air in the room passes through the second sterilizing member 220 made of silver nano-coated foam metal, and at the same time, the second sterilizing member 220 and the first sterilizing member It moves to the congestion space 240 formed between the 210.

Since the first and second sterilizing members 210 and 220 have different particle sizes, the air moved to the stagnant space 240 does not pass directly through the first sterilizing member 210.

That is, as the air rotates by the guide surface 250 formed inclined to form a vortex, the time to exit the first sterilizing member 210 is stagnated, and in this process, contaminated air is sterilized for more time.

The air sterilized in the stagnant space 240 passes through the first sterilizing member 210 to first sterilize bacteria such as various pathogenic viruses or coronaviruses.

The primary sterilized air is moved toward the UV lamp 400 through the passage (S) by the suction power of the suction fan 300, and the air moved to the UV lamp 400 is ultraviolet rays irradiated from the UV lamp 400. It is sterilized secondarily by

The ultraviolet rays are divided into ultraviolet A (UVA), ultraviolet B (UVB), and ultraviolet C (UVC) according to their wavelength, and short-wave ultraviolet (UVC) with a short wavelength has strong sterilizing power and is used for sterilization and disinfection of empty hospital rooms or subway vehicles. Short-wave ultraviolet rays can remove more than 99.9% of coronavirus contained in droplets.

Using the currently allowed amount of far ultraviolet rays, the coronavirus can be eliminated in the air by 90% in 8 minutes, 95% in 11 minutes, 99% in 16 minutes, and 99.9% in 25 minutes.

The air that has been sterilized secondarily through the UV lamp 400 as described above is discharged into the elevator through the discharge port 510 of the discharge plate 500.

Accordingly, the first and second sterilizing members 210 and 220 are brought into close contact with each other or spaced apart from each other according to the degree of pollution of the air inside the elevator, thereby providing a sterilizing power suitable for the situation.

In addition, the present inventors sterilization device (A) using a silver nano-coated foam metal, as shown in Figure 7, is installed in a built-in top, bottom, left and right of the advertisement monitor (M) installed on the wall of the elevator, always clean Air can be provided, and as shown in FIG. 8, since it is independently configured in a movable manner at a corner portion inside the elevator, clean air can always be provided.

As described above, although the present invention has been described by a limited embodiment and drawings, terms or words used in the present specification and claims are limited to a conventional or dictionary meaning and should not be interpreted, but according to the technical idea of the present invention. It must be interpreted as a corresponding meaning and concept.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only one embodiment of the present invention, and do not represent all the technical spirit of the present invention, and thus various It should be understood that there may be equivalents and variations.

100: suction plate material 111: suction port
200: sterilization unit 210: first sterilization member
220: second sterilizing member 230: operating member
240: congestion space 250: guide surface
300: suction fan 400: UV lamp
500: discharge plate 510: discharge port
600: guide member 700: adsorption unit

Claims (5)

The suction plate material 100 in which the suction port 110 is formed;
The first and second sterilizing members 210 and 220 are installed in a pair of two in the passage S formed at the rear of the suction plate material 100 to sterilize the contaminated air sucked through the suction plate material 100 primarily. The sterilization unit 200 made of an open-cell foamed metal containing silver nanoparticles;
A suction fan 300 for sucking air inside the elevator;
A UV lamp 400 for secondary sterilization of contaminated air by irradiating ultraviolet rays to the air that is firstly sterilized by the sterilization unit 200;
A discharge plate material 500 having a discharge port 510 is formed to discharge clean air sterilized through the sterilization unit 200 and the UV lamp 400,
The sterilization unit 200,
A first sterilizing member 210 installed in the passage S;
A second sterilizing member 220 installed in front of the first sterilizing member 210;
An operation member 230 is provided that is fixed to the second sterilizing member 220 so that the second sterilizing member 220 is in close contact with or spaced apart from the first sterilizing member 210,
If the pollution level of indoor air is low, the first sterilizing member 210 and the second sterilizing member 220 are brought into close contact to speed up the flow of air, and if the pollution level of indoor air is high, the first sterilizing member 210 and the second sterilizing member The stagnant space 240 is formed while spaced apart from 220 to increase sterilization efficiency by stagnating the flow of air, and the first and second sterilizing members 210 and 220 are formed with pores of 10 to 100 ppi, 1 sterilization member 210 is a sterilization device using a silver nano-coated foamed metal, characterized in that formed with pores smaller than the second sterilization member 220.
delete The method according to claim 1,
The first and second sterilizing members 210 and 220 are provided with uneven portions 211 and 221 respectively so as to engage with each other, and one side of the uneven portions 211 and 221 has a guide surface 250 formed to be inclined. And, the guide surface 250 of the second sterilizing member 220 slides along the guide surface 250 of the first sterilizing member 210, and the air passing through the second sterilizing member 220 is passed through the guide surface 250. A sterilization device using a silver nano-coated foamed metal, characterized in that to form a vortex in the stagnant space 240 while being guided along.
The method according to claim 1,
A guide member 600 is further provided on one side of the passage S so that the second sterilization member 220 slides diagonally, and one side of the second sterilization member 220 is guided by a guide member 600. , The other side of the second sterilization member 220 is a sterilization device using a silver nano-coated foam metal, characterized in that the slide by the operation member (230).
The method according to claim 1,
An adsorption unit 700 mounted on the front and rear of the sterilization unit 200 to adsorb and decompose harmful substances is further provided, and the adsorption unit 700 has a plurality of through holes 711 formed on both sides thereof, A perforated plate 710 in which a space is formed; A sterilization device using a silver nano-coated foamed metal, characterized in that an adsorbent 720 inserted into the space inside the perforated plate 710 is provided.

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