KR20080059959A - Air disinfector - Google Patents

Abstract

An air disinfector is provided to increase the effects of sterilizing the air by constituting a filter assembly with nano-filters and UV lamps and to control the flow of the air passing through the filter assembly. An air disinfector sucks the indoor air through an air inlet(11), purifies and sterilizes the air through a filter assembly(20) inside a housing(10), and provides the purified air to the room through an air outlet(12). A hepa filter(14) is installed on the inner side of the inlet. Nano-ceramic filters(30) are installed on the upper and lower parts of a case of the filter assembly. Punched plates(22) are installed inside the case to divide the space of the case. Plural UV lamps are installed on the divided spaces of the case. Plural nano-punched filters are filled into the center space of the case.

Description

Air Disinfector

1 is a perspective view showing a general air purifier according to the prior art,

Figure 2 is a perspective view showing the appearance of the air sterilizing apparatus according to the present invention,

Figure 3 is a front view showing the internal structure of the air sterilizing apparatus according to the present invention,

Figure 4 is a side view showing the filter assembly of the air sterilizing apparatus according to the present invention,

5 is a perspective view showing a nano-ceramic filter of the air sterilizing apparatus according to the present invention,

6 is a state diagram showing a UV lamp installation state of the air sterilizing apparatus according to the present invention,

7 is a perspective view showing a nano-pore filter of the air sterilizing apparatus according to the present invention,

8 is a state diagram showing the flow of air passing through the filter of the air sterilizer according to the present invention.

Explanation of symbols on the main parts of the drawings

1: Air Sterilizer 10: Housing

11 suction port 12 discharge port

13: adjuster 14: HEPA filter

20: filter assembly 21: case

22: punched plate 23: reflecting plate

30: nano ceramic filter 40: UV lamp

50: nano-porous filter 51: the body

52: perforation hole

The present invention relates to an air sterilizer for purifying polluted air in a room, and in particular, purifies and sterilizes indoor air using light energy and photocatalyst (TiO2) and controls air flow through a filter. The present invention relates to an air sterilizer that can effectively sterilize and deodorize pollutants.

In general, the air purifier refers to a device for purifying contaminated air to fresh air. Referring to FIG. 1, a conventional air purifier is described. The air purifier 100 includes a front panel 101 forming a front exterior. And the exterior is composed of a side panel 102 to form a side appearance, a rear panel (not shown) to form a rear appearance, and an upper panel 103 to form a top appearance.

The air cleaner 100 includes a fan that sucks air from the outside, a motor that drives the fan, and various filters that purify the air sucked by the fan.

The upper panel 103 is formed in a rectangular shape, the front end portion and the side end portion is formed to be inclined downward. A discharge port 103a through which the purified air is discharged inside the air cleaner 100 is formed at a rear end of the upper panel 103, and a discharge grill is installed at the discharge port 103a. In addition, the control unit 104 is formed at the front end of the upper panel 103.

The control unit 104 is provided with various operation buttons for operating the air cleaner, and various display lamps for informing the operation state of the air cleaner and the state of indoor air to facilitate the user's operation.

A rectangular front panel 101 is formed at the front of the air cleaner 100, and an inlet 101a at which the indoor air to be purified is sucked into the air cleaner 100 is provided below the front panel 101. Is formed. The suction port 101a is provided with a detachable suction grill to facilitate replacement or maintenance of the filter.

In addition, a filter assembly configured to purify the air sucked through the suction port 101a from the outside of the air cleaner 100 is formed inside the air cleaner 100. The filter assembly is composed of a plurality of filter assemblies to remove foreign substances in the air.

That is, the filter assembly is composed of a pre-filter for removing a relatively large dust contained in the inhaled air, a deodorizing filter for removing odors, and a dust collecting filter for collecting dust by an electrical action and a hepa filter for removing fine dust.

However, the filters used in the conventional air cleaner 100 are difficult to sterilize viruses or bacteria. Accordingly, the conventional air cleaner 100 may clean the indoor air to some extent, but the sterilization function is inferior. Therefore, the air cleaner 100 using the anion sterilization method or the ozone sterilization method is insufficient to protect the user's health, and the sterilizing power is not only weak but also harmful substances are emitted.

Accordingly, the present invention has been made to solve the problems of the conventional air cleaner, by increasing the sterilization effect of the air by constituting the filter assembly using the nano-filter and UV lamps and the flow of air through the filter assembly It is an object of the present invention to provide an air sterilization apparatus which can achieve effective air purification and sterilization by controlling.

The present invention for achieving the above object, the air to suck the air in the room through the air inlet to purify and sterilize the air through the filter assembly inside the housing and to supply the purified air to the room through the air outlet In the sterilization apparatus, a hepa filter for removing fine dust is installed inside the suction port, and nano ceramic filters are installed at upper and lower sides of the case of the filter assembly, and perforated plates partitioning the space are respectively installed in the case. In addition, a plurality of UV lamps are installed at predetermined intervals in the compartment, and a plurality of nano-porous filters are installed in the central space of the case to sterilize air passing through the filter assembly.

In addition, the nano-ceramic filter is formed of a ceramic material, the surface is formed by the carbon coating and photocatalyst coating and heat treatment of the nanoparticles.

In addition, the case of the filter assembly is to reflect the light of the UV lamp is formed on the inner surface of the reflecting plate by a polishing process.

In addition, the nano-porous filter has a plurality of perforated holes are formed in the body, and the surface is formed through the photocatalytic coating and heat treatment of the nanoparticles while forming a hexagonal pipe.

In addition, the air flowing through the inlet of the housing passes through the HEPA filter, the nano ceramic filter, the nano perforated filter, and the nano ceramic filter, so that the flow thereof is controlled to be delayed.

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

The air sterilizer including a plurality of filters and UV lamps will be described with reference to FIGS. 2 and 3, wherein the air sterilizer 1 includes the housing 10 and the air in the room 10. It consists of an electric device such as a fan and a motor to be introduced into and discharged therein and a filter assembly 20 for purifying and sterilizing the air introduced into the housing 10. After suction and purifying and sterilizing the air through the filter assembly 20 inside the housing 10, the purified air is supplied to the room through the air discharge port 12.

That is, the air inlet 11 is formed in the housing 10 of the air sterilizer 1 so that indoor air can be introduced into the lower left and right sides thereof, respectively, and the purified air is provided in the upper upper part of the housing 10. The air discharge port 12 is formed so that the discharge can be, and the control unit 13 is installed in the front of the housing 10 to operate the air sterilizer.

In addition, a fan and a motor for sucking indoor air into the air sterilizer 1 are respectively installed in the housing 10, and a hepa filter 14 for removing fine dust inside the suction port 11 is installed. The filter assembly 20 is installed in a vertical direction at the center of the housing 10 to allow the air passed through the HEPA filter 14 to be purged and sterilized.

Here, the filter assembly 20 is composed of a case 21 and its nano-ceramic filter 30, UV lamp 40, and nano-porous filter 50 installed inside the case 21 forming the outer shape.

Therefore, when the filter assembly 20 is described in detail with reference to FIG. 4, nano ceramic filters 30 are respectively installed on upper and lower portions of the case 21 of the filter assembly 20, and inside the case 21. The perforated plate 22 which partitions the space is installed, and a plurality of UV lamps 40 are installed at predetermined intervals inside the partitioned case 21, and a plurality of UV lamps 40 are provided in the central space of the case 21. The nano-porous filter 50 is installed to be filled to sterilize the air passing through the filter assembly 20.

That is, the case 21 of the filter assembly 20 is composed of three upper and lower spaces, each of the nano ceramic filter 30 and a plurality of UV lamps 40 are installed in the upper and lower spaces of the case 21, In the central space of the case 21, a plurality of nano-porous filters 50 are installed around the plurality of UV lamps 40, thereby filling the central space with the nano-porous filter 50.

Therefore, the air introduced into the filter assembly 20 is purified through the nano ceramic filter 30 and the nano-porous filter 50 and sterilized by the light irradiated from the UV lamp 40.

Meanwhile, referring to FIG. 5, the nano ceramic filter 30 installed in the air sterilizer 1 is installed at upper and lower portions of the filter assembly 20 to purify air. In this way, the nano ceramic filter 30 is formed of a ceramic material, the surface is formed through the carbon coating and photocatalyst coating and heat treatment of the nanoparticles.

That is, the nano-ceramic filter 30 is produced by carbon coating on a filter made of a ceramic material, and then performing a heat treatment process three times after coating the photocatalyst of the nanoparticles again. The rough surface and the countless microholes purify the air while controlling the flow of air.

In addition, the case 21 of the filter assembly 20 to which the plurality of UV lamps 40 are fixed is illustrated in FIG. 6, and the case 21 of the filter assembly 20 is polished on an inner surface thereof. Reflective plate 23 is formed to reflect the light of the UV lamp 40, because the light of the UV lamp 40 is reflected inside the case 21 through the reflecting plate 23 Through this, the air passing through the case 21 of the filter assembly 20 may be sterilized.

In addition, the nano-porous filter 50 installed in the air sterilizer 1 will be described with reference to FIG. 7. The nano-perforated filter 50 is installed together to purify the air, and the plurality of perforation holes 52 are formed in the body 51, and the photocatalyst coating and heat treatment of the nanoparticles form a hexagonal pipe shape. The surface is constructed through.

That is, the nano-porous filter 50 is manufactured by processing the hexagonal tubular shape after the perforation in a thin plate material of 0.8t or less, and by performing a heat treatment process three times after coating the photocatalyst of the nanoparticles, the nano The perforated filter 50 purifies the air while controlling the flow of air through the surface and the plurality of perforation holes 52.

On the other hand, the flow of air passing through the filter of the air sterilizer 1 is the air introduced through the inlet 11 formed in the housing 10 of the air sterilizer 1, as shown in FIG. Fine dust is filtered while passing through the HEPA filter 14, and the flow is controlled to delay the flow while passing through the nano ceramic filter 30, the nano perforated filter 50, and the nano ceramic filter 30. Accordingly, the air is purged and sterilized through the filter and the UV lamp 40 during the time the air stays inside the filter assembly 20.

That is, since the air sterilizer 1 sterilizes air using ultraviolet light and a photocatalyst of the filter, there is almost no ozone generation harmful to the human body, and since the filter can be periodically cleaned, the filter can be used semi-permanently. .

Therefore, the air sterilizer 1 is capable of sterilization irrespective of the particle size of contaminants contained in the air, so that the sterilizing power is excellent, and the ability to remove various viruses, odors, and elethylene gas is excellent.

As described above, according to the air sterilizing apparatus according to the present invention, the filter assembly is formed by using the nano filter and the UV lamp to increase the sterilization effect of the air, and to control the flow of air passing through the filter assembly. Purification and sterilization can be achieved, and since the replacement of the filter is unnecessary, economical effect can be achieved by using the filter semi-permanently.

Claims (5)

Air sterilization by purifying and sterilizing air through the filter assembly 20 inside the housing 10 by sucking the air in the room through the air inlet 11 and then supplying the purified air to the room through the air discharge port 12. In the apparatus, A HEPA filter 14 for removing fine dust is installed inside the suction port 11, and nano ceramic filters 30 are respectively installed on upper and lower portions of the case 21 of the filter assembly 20, and the case 21. In the interior of the perforated plate 22 partitioning the space are respectively installed, a plurality of UV lamps 40 are provided at regular intervals in the partitioned case 21, the central space of the case 21 Air sterilizer, characterized in that the installation is filled with a plurality of nano-porous filter (50). The method of claim 1, The nano-ceramic filter 30 is formed of a ceramic material, characterized in that the surface is configured by the carbon coating and the photocatalyst coating and heat treatment of the nanoparticles. The method of claim 1, Case 21 of the filter assembly 20, the reflecting plate 23 by a polishing process is formed on the inner surface of the air sterilizer, characterized in that to reflect the light of the UV lamp 40 . The method of claim 1, The nano-porous filter 50 has a plurality of perforation holes 52 are formed in the body 51, and the surface is formed through the photocatalytic coating and heat treatment of nanoparticles while forming a hexagonal pipe shape. Sterilizer. The method of claim 1, Air flowing through the inlet 11 of the housing 10 passes through the HEPA filter 14, the nano ceramic filter 30, the nano perforated filter 50, and the nano ceramic filter 30. Air sterilizer, characterized in that the control to be delayed.

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