KR20210017995A - Air sterilization module and air purifier using it - Google Patents

Abstract

The present invention relates to an air sterilization module, which can maximize sterilization and purification efficiency through an optimized structure capable of increasing air contact efficiency per unit area, and can increase sterilization and purification efficiency by increasing a UV irradiation amount through the dispersion of ultraviolet (UV) rays, and comprises: a casing having a space portion formed therein, having, on one side thereof, an inlet part in which air flows, having, on the other side thereof, an outlet part through which air is discharged, and having, on the inner wall surface thereof, a light reflective layer capable of reflecting light; a plurality of sterilization members which are arranged inside the casing at predetermined intervals, and which have a photocatalytic coating layer formed on the surface thereof; and a UV light, which is located inside the casing and emits UV rays for a photocatalytic reaction.

Description

Air sterilization module and air purifier using it}

The present invention relates to an air sterilization module and an air purification apparatus using the same, and more particularly, an air sterilization module that removes and sterilizes foreign substances and odors such as dust, bacteria and viruses contained in the air, and air using the same. It relates to a purification device.

In general, air cleaning devices use various methods such as a filter method using a fibrous filter to remove foreign substances such as fine dust or an ion method using negative ions.

However, the filter method requires a periodic replacement of the filter and requires a high cost of maintenance because it requires the use of an expensive filter to remove foreign substances such as ultrafine dust, which is a recent issue, and it is difficult to effectively remove viruses and bacteria. In addition, the ion method is a situation in which a problem in which the effect of removing foreign substances is relatively inferior is pointed out.

In other ways, Korean Registered Patent Publication No. 10-1826236 (announced on June 6, 2018) introduces an ultraviolet air sterilizer that sterilizes air using ultraviolet rays.

However, these methods still do not have the effect of removing foreign matters, and in recent years, photocatalytic methods using ultraviolet rays are widely used because they are excellent in terms of effectiveness. However, an optimum design to secure the best effect is required. .

Korean Registered Patent Publication No. 10-1826236 (announced on June 6, 2018)

As invented to solve the above problems and circumstances, the present invention is an air sterilization module that maximizes sterilization and purification efficiency through an optimal structure that can increase air contact efficiency per unit area, and air using the same. Its purpose is to provide a purification device.

In addition, an object of the present invention is to provide an air sterilization module capable of increasing sterilization and purification efficiency by increasing the amount of ultraviolet radiation by diffusing ultraviolet rays, and an air purification apparatus using the same.

In addition, an object of the present invention is to provide an air sterilization module and an air purification device using the same, which are advantageous in assembly and maintenance with a relatively simple configuration.

As a means for solving the above problems, the air sterilization module of the present invention has a space part formed therein, an inlet part through which air is introduced and a discharge part through which air is discharged on the other side, and the inner wall surface reflects light. A casing on which a light reflective layer is formed,

A plurality of sterilizing members disposed inside the casing at regular intervals and having a photocatalytic coating layer formed on the surface thereof, and

It is located inside the casing and characterized in that it comprises a UV light emitting ultraviolet rays for a photocatalytic reaction.

' 형태로 절곡된 플레이트로 이루어지며 일정 간격으로 형성된 복수의 유동홀이 구비되는 것을 특징으로 한다.In addition, the cross section of the sterilizing member is'

It is made of a plate bent in a shape and characterized in that a plurality of flow holes formed at regular intervals are provided.

In addition, the sterilization member is fixed to the upper and lower protrusions provided in the casing at both ends,

The UV light is characterized in that it is disposed outside both ends of the sterilizing member.

In addition, the sterilization member is composed of two upper and lower stages, and the upper sterilizing member is formed of a bent plate with a cross section of'∧' and the lower sterilizing member is'∨', and is arranged to be staggered with a plurality of flow holes formed at regular intervals. It characterized in that it is provided.

In addition, the upper sterilizing member is fixed to the upper protrusions provided in the casing with upper portions of both ends thereof,

The lower sterilizing member is fixed to a lower protrusion provided in the casing with lower portions of both ends thereof,

The UV light is characterized in that it is disposed outside both ends of the sterilizing member.

In addition, a casing in which a space part is formed inside, an inlet part through which air is introduced and an discharge part through which air is discharged on the other side is provided, and a light reflecting layer is formed on the inner wall surface to reflect light,

A pair of sterilizing members installed at the upper and lower ends of the casing and having a photocatalytic coating layer

It is installed between the pair of sterilizing members in the center of the inner casing and comprises a UV light emitting ultraviolet rays for a photocatalytic reaction,

Each of the sterilizing members;

A body made of a synthetic resin material made of a transparent material so that ultraviolet rays can pass through;

A plurality of air-flowing photocatalytic reaction holes formed in the body at regular intervals and having an inner circumferential surface corrugated in a zigzag shape; And

It characterized in that it comprises a photocatalytic coating layer formed on the inner peripheral surface of the air flowing photocatalytic reaction hole.

In addition, the air flow photocatalytic reaction hole is characterized in that it is installed inclined.

In addition, the main body is configured to be in contact with each other in plurality,

The air flow photocatalyst reaction holes formed in each body are formed to be inclined, but are configured to have different inclination values.

In addition, the air flow photocatalytic reaction hole formed in each of the main bodies is characterized in that it is configured to change the flow direction of the air in a zigzag shape.

In addition, a casing in which a space part is formed inside, an inlet part through which air is introduced and an discharge part through which air is discharged on the other side is provided, and a light reflecting layer is formed on the inner wall surface to reflect light,

A sterilizing member comprising a fan disposed inside the casing and forcibly rotated by a rotation driving means, and

It is located inside the casing and characterized in that it comprises a UV light emitting ultraviolet rays for a photocatalytic reaction.

In addition, the fan of the sterilizing member is made of a transparent synthetic resin material so as to transmit ultraviolet rays, and a photocatalyst coating layer is formed on at least one of the front and rear surfaces.

In addition, the present invention relates to an air purification apparatus using the air sterilization module,

An air inlet through which the indoor unit is provided at the bottom,

An air filter made of a mesh disposed above the air inlet,

A HEPA filter disposed above the air filter,

An air sterilization module disposed above the HEPA filter,

A carbon filter disposed above the air sterilization module,

A fan box disposed above the carbon filter to perform forced flow of air, and

It is formed on the fan box and characterized in that it comprises an air outlet for discharging the clean air.

Through the above-described problem solving means, the air sterilization module of the present invention and the air purification device using the same can maximize sterilization and purification efficiency through an optimal structure that can increase air contact efficiency per unit area, By diffusing, it is possible to further increase the sterilization and purification efficiency by increasing the amount of UV irradiation, and there are advantages in manufacturing, assembly and maintenance with a relatively simple configuration.

1 is a partially cutaway perspective view and a partially enlarged view showing a first embodiment of an air sterilization module according to the present invention.
2 is a perspective view showing a sterilizing member of the first embodiment of the air sterilizing module according to the present invention.
3 is a partially cutaway perspective view and a partially enlarged view showing an application example of the first embodiment of the air sterilization module according to the present invention.
4 is a perspective view showing a sterilizing member according to an application example of the first embodiment of the air sterilizing module according to the present invention.
5 is a view showing a second embodiment of the air sterilization module according to the present invention.
6 is a view showing a third embodiment of the air sterilization module according to the present invention.
7 is a diagram showing an air purification apparatus using an air sterilization module according to the present invention.

A preferred embodiment of the air sterilization module according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a partially cut-away perspective view and a partially enlarged view showing a first embodiment of an air sterilization module according to the present invention, and FIG. 2 is a perspective view showing a sterilization member of a first embodiment of the air sterilization module according to the present invention, 3 is a partially cutaway perspective view and a partially enlarged view showing an application example of the first embodiment of the air sterilization module according to the present invention, and FIG. 4 is a sterilization member of the application example of the first embodiment of the air sterilization module according to the present invention. It is a perspective view shown.

As shown in FIG. 1, the air sterilization module according to the present invention has a space portion formed therein, an inlet portion through which air is introduced and an exhaust portion through which air is discharged on the other side, and the inner wall surface is capable of reflecting light. A casing 10 on which a light reflective layer is formed, a plurality of sterilizing members 20 disposed inside the casing 10 at regular intervals and having a photocatalytic coating layer formed on the surface thereof, and a photocatalytic reaction located inside the casing 10 It is configured to include a UV light 30 for emitting ultraviolet rays.

Through this, the air passing through the casing 10 contacts the photocatalytic coating layer and removes organic substances, hydrogen sulfide, ammonia, nitric acid gas, sulfuric acid gas, etc., which are present through the photocatalytic reaction, and also removes dust and the like with the generated photoelectrons. It is removed by charging. At this time, the photochemical reaction efficiency is increased by preventing the ultraviolet radiation emitted from the UV light 30 through the light reflection layer in the casing 10 to be lost to the outside, and the sterilization module further increases the contact area with air per unit volume. As well as increasing the effect of the photochemical reaction is increased.

' 형태로 절곡된 플레이트로 이루어지며 일정 간격으로 형성된 복수의 유동홀(20')이 구비된다. 이러한 형태의 복수의 살균 부재(20)를 일정한 간격으로 두고 연속적으로 배치함으로써 통과하는 공기는 굴곡진 공간을 지그재그로 이동하면서 유동거리를 증가시켜 1차로 상기 살균 부재(20)와의 접촉기회를 증가시키게 되고, 공기의 일부는 상기 복수의 유동홀(20')을 통과하여 2차로 접촉기회를 증가시키게 되며, 살균 부재(20) 사이를 지그재그로 유동하는 공기와 유동홀(20')을 통과하여 유동하는 공기의 충돌에 의한 와류로 인해 공기의 유동거리는 더욱 증가되어 3차로 접촉기회를 증가시키게 된다. 따라서, 기존의 살균 부재(20)들에 비해 공기와 살균 부재(20)의 접촉기회는 현저히 증가하게 되며 이는 곧 작은 체적에도 높은 광화학반응 효율이 구현 가능하게 하는 효과를 가진다.Specifically, the sterilization member has a cross section of '

A plurality of flow holes 20 ′ formed of a plate bent in a shape and formed at regular intervals are provided. By continuously arranging the plurality of sterilizing members 20 of this type at regular intervals, the air passing through it moves through the curved space in zigzag and increases the flow distance, thereby increasing the chance of contact with the sterilizing member 20 primarily. Part of the air passes through the plurality of flow holes 20' to increase the contact opportunity secondarily, and flows through the air flowing in a zigzag between the sterilizing members 20 and the flow holes 20'. Due to the eddy current caused by the collision of the air, the air flow distance is further increased, thereby increasing the contact opportunity in the third order. Accordingly, the contact opportunity between air and the sterilization member 20 is significantly increased compared to the conventional sterilization members 20, which has the effect of enabling a high photochemical reaction efficiency to be realized even in a small volume.

And the sterilization member 20 is fixed to the upper and lower protrusions provided in the casing 10, the upper and lower ends of the sterilization member 20, the UV light 30 is disposed outside both ends of the sterilization member 20, thereby simplifying the structure This facilitates single modularization and is effectively transmitted to the sterilization member 20 without inhibiting light transmission from the UV light 30.

In addition, as an application example, the sterilizing member 20 is composed of two upper and lower stages, and the upper sterilizing member 20 is made of a bent plate having a cross section of'∧' and the lower sterilizing member 20 is'∨'. It is arranged to be staggered with each other, and a plurality of flow holes formed at regular intervals are provided. This significantly increases the flow distance of air as described above, and increases the contact opportunity between the air and the sterilizing member 20 by changing the direction of the air flow and forming a vortex in a more active form.

Here, the upper sterilization member 20 is fixed to the upper protrusion provided in the casing 10 with upper portions of both ends thereof, and the lower sterilization member 20 has lower portions of the both ends provided in the casing 10 It is fixed to the lower protrusion, and the UV light 30 is disposed outside both ends of the sterilizing member 20.

Here, the photocatalyst coating layer is TiO ₂ , ZnO, WO ₃ , Fe, Fe ₂ O ₃ , Fe ₃ O ₄ and the like, TiO _2-x , ZnO _x , WO _3-x , Fe, Fe ₂ O _3-x , Fe ₃ O _4-x and Ag, Pd, Pt, Rh, PdO, etc. will be used together. Also for the removal of ozone Mn, MnO ₂ , MnO _2-x , Mn ₂ O ₃ , Mn ₃ O ₄ , MnCl ₂ , Mn(NO ₃ ) ₂ , MnSO ₄ , Mn(CH ₃ COO) ₂ , Fe, CeO ₂ and a mixture thereof, and can be used with Al ₂ O ₃ , SiO ₂ and the like as a support for the catalyst.

Hereinafter, another embodiment of the air sterilization module according to the present invention will be described in detail with reference to the drawings.

5 is a view showing a second embodiment of the air sterilization module according to the present invention.

As shown in FIG. 5, the air sterilization module according to the present invention has a space portion formed therein, an inlet portion through which air is introduced and an outlet portion through which air is discharged on the other side, and the inner wall surface is capable of reflecting light. A casing 10 on which a light reflecting layer is formed, a pair of sterilizing members 20 installed at the upper and lower ends of the casing 10 and having a photocatalytic coating layer formed thereon, and a pair of the inner center of the casing 10 It is installed between the sterilizing members 20 and configured to include UV light 30 emitting ultraviolet rays for photocatalytic reaction.

Here, each of the sterilizing members 20 includes a main body 21 made of a synthetic resin material made of a transparent material to transmit ultraviolet rays, and a plurality of the main bodies 21 formed in the main body 21 at regular intervals, and the inner circumferential surface is wrinkled in a zigzag shape. And a photocatalytic coating layer formed on the inner circumferential surface of the air flow photocatalytic reaction hole 22 and the air flow photocatalytic reaction hole 22.

Accordingly, in the present embodiment, the contact area and efficiency of the air per unit area and volume of the photocatalyst coating layer and the emissivity of the photocatalyst coating layer of ultraviolet rays can be further increased, thereby doubling the air sterilization effect. In particular, in this embodiment, since it is possible to manufacture the sterilizing member 20 simply through a simple perforation and coating operation on the main body 21, which is a synthetic resin material, productivity is increased and there is no cost in maintaining the effective sterilizing member 20 Can be produced.

In addition, since the air-flowing photocatalytic reaction hole is installed at an angle and can be composed of several stages, the contact area and efficiency of the air and the photocatalyst coating layer and the emissivity of the photocatalyst coating layer of UV light are increased by extending the residence period of air and further expanding the irradiation area of UV rays Will be able to further increase.

In addition, the main body 21 is configured to be in contact with each other in plural, and the air flow photocatalytic reaction holes 22 formed in each of the main bodies 21 are formed to be inclined, but the inclination values (a, b) are the same and different By doing so, it is possible to configure a module that is maximally integrated for a unit volume, so that a high photocatalytic effect can be seen in a small space.

To this end, it is preferable that the air flow photocatalytic reaction holes formed in each of the main bodies 21 are configured to change the flow direction of air in a zigzag shape.

Hereinafter, another embodiment of the air sterilization module according to the present invention will be described in detail with reference to the drawings.

6 is a view showing a third embodiment of the air sterilization module according to the present invention.

As shown in FIG. 6, the air sterilization module according to the present invention has a space portion formed therein, an inlet portion through which air is introduced and an exhaust portion through which air is discharged on the other side, and the inner wall surface is capable of reflecting light. A sterilizing member 20 comprising a casing 10 on which a light reflecting layer is formed, a fan 23 disposed inside the casing 10 and forcibly rotating by a rotation driving means, and located inside the casing 10 It is configured to include UV light 30 that emits ultraviolet rays for a photocatalytic reaction.

Here, the fan 23 of the sterilizing member 20 is made of a transparent synthetic resin material so that ultraviolet rays can pass therethrough, and a photocatalytic coating layer is formed on at least one of the front and rear surfaces.

As described above, in the present embodiment, by forcibly driving the photocatalytic coating layer in order to induce a more efficient photocatalytic reaction, an opportunity for contact with air may be increased, and the opportunity for a photocatalytic reaction may be increased. At this time, the rotational speed of the fan 23 may be made within a range in which the air flow is not excessively increased, and the forced air flow direction by the fan 23 is different from the air flow direction of the air sterilization module to increase the residence time of air. I can make it.

Hereinafter, a preferred embodiment of an air purification apparatus using an air sterilization module according to the present invention will be described in detail with reference to the accompanying drawings.

7 is a view showing an air purification apparatus using the air sterilization module according to the present invention.

Since the description of the air sterilization module is the same as described above, it will be omitted, and as shown in FIG. 7, the air purification apparatus using the air sterilization module according to the present invention includes an air inlet 40 for introducing an indoor unit provided at the bottom and , An air filter 50 made of a mesh disposed above the air inlet 40, a HEPA filter 60 disposed above the air filter 50, and air disposed above the HEPA filter 60 A sterilization module, a carbon filter 70 disposed above the air sterilization module, a fan box disposed above the carbon filter 70 to perform forced flow of air, and clean air formed above the fan box It is configured to include an air outlet to discharge.

Through this, indoor air flows through the air inlet 40, the air filter 50, the HEPA filter 60, the air sterilization module, the carbon filter 70, the fan box, and the air outlet, and is discharged as clean air. , Large particles of foreign matter are firstly removed through the air filter 50, fine dust is removed through the HEPA filter 60, and ultrafine dust, various bacteria, and bacteria are removed by passing through the air sterilization module and the carbon filter 70. Viruses and harmful gases are finally completely removed.

Through the configuration as described above, the air sterilization module of the present invention and the air purification device using the same can maximize sterilization and purification efficiency through an optimal structure that can increase air contact efficiency per unit area, and also by diffusing ultraviolet rays. By increasing the amount of UV irradiation, sterilization and purification efficiency can be further increased, and with a relatively simple configuration, it has an advantageous effect on manufacturing, assembly and maintenance.

10: casing
20: sterilization member 20': flow hole
21: main body 22: air flow photocatalytic reaction hole
23: fan
30: UV light
40: air inlet
50: air filter
60: HEPA filter
70: carbon filter
80: fan box
90: air outlet

Claims (4)

A casing in which a space is formed inside, an inlet through which air is introduced and an exhaust through which air is discharged on the other side, and a light reflecting layer is formed on the inner wall surface to reflect light,
A plurality of sterilizing members disposed inside the casing at regular intervals and having a photocatalytic coating layer formed on the surface thereof, and
It is located inside the casing and characterized in that it comprises a UV light emitting ultraviolet rays for a photocatalytic reaction
Air Sterilization Module
In claim 1,
The sterilization member has a cross section of '

', characterized in that it is made of a plate bent in a shape and has a plurality of flow holes formed at regular intervals.
Air Sterilization Module
The method according to claim 1
The sterilizing member is composed of two upper and lower stages, and the upper sterilizing member is formed of a bent plate having a cross section of'∧' and the lower sterilizing member is'∨', and is arranged to be staggered, and has a plurality of flow holes formed at regular intervals. Characterized by being
Air Sterilization Module
In the air purification apparatus using the air sterilization module according to any one of claims 1 to 3,
An air inlet through which the indoor unit is provided at the bottom,
An air filter made of a mesh disposed above the air inlet,
A HEPA filter disposed above the air filter,
An air sterilization module disposed above the HEPA filter,
A carbon filter disposed above the air sterilization module,
A fan box disposed above the carbon filter to perform forced flow of air, and
Characterized in that it comprises an air outlet formed on the fan box to discharge clean air
Air purification device using air sterilization module

Images