KR20190001052A - Evaporator core sterilizer - Google Patents

Abstract

The present invention relates to an evaporator core sterilizer. The evaporator core sterilizer of the present invention includes a front mounting bar and a rear mounting bar provided at the front and rear of the evaporator core of an air conditioning duct in which an evaporator core is installed, a front UV LED installed on the front mounting bar, and a rear UV LED installed on the rear mounting bar. Therefore, the front and rear air of the evaporator core is sterilized together with the surface of the evaporator core. Accordingly, the sterilizing process is performed on the entire air in front and rear areas of the evaporator together with the surface of the evaporator core to maximize the sterilization efficiency of the surface of the evaporator core and the air of the front and rear areas. Meanwhile, the front UV LED and the rear UV LED are applied, and a photocatalytic coating layer is formed around the inner surface having a width in front of and behind the evaporator core of the ventilation duct in which the evaporator core is installed, thereby generating a photochemical reaction through ultraviolet irradiation, so that it is possible to further improve the sterilizing efficiency of the air in the front and rear areas of the evaporator core.

Description

[0001] Evaporator core sterilizer [0002]

The present invention relates to an evaporator core sterilizer, and more particularly, to an evaporator core sterilization apparatus having a front installation bar and a rear installation bar at the front and rear of an evaporator core of an air conditioning duct in which an evaporator core is installed, By including the rear UV LED installed on the installation bar, sterilizing treatment can be performed on the front and rear air of the evaporator core together with the surface of the evaporator core with respect to the evaporator core of the air conditioning system. The sterilizing treatment is performed on the air in the front and rear of the evaporator core as a whole to maximize sterilizing efficiency against the surface of the evaporator core and the back and front constant air, while the front UV LED and the rear UV LED are applied The front and rear of the evaporator core of the air conditioning duct in which the evaporator core is installed A photocatalytic coating layer is formed around an inner surface of the evaporator core to generate a photochemical reaction through irradiation of ultraviolet rays to further improve sterilization efficiency against air in a certain region of the evaporator core.

Generally, the vehicle is provided with an air conditioning system that allows the driver to keep the interior of the vehicle in the most comfortable state in consideration of the climatic conditions and the like.

Such an air conditioning system is equipped with a cooling unit including a heating unit including a heater for warming the room in the winter season, and an air conditioner for keeping the room cool during the summer.

Here, the cooling unit of the air conditioning system includes an evaporator for generating cold air. When the cooling unit is operated, water droplets are generated in the evaporator due to the temperature difference with the air to be heat-exchanged and adsorbed on the surface of the evaporator It becomes damp.

As a result, the evaporator is in an optimal state in which fungi and bacteria can live. As a result, there is a problem that a harmful substance produced by fungus and bacteria is blown in the vehicle interior, resulting in an unpleasant odor.

That is, when the air conditioner is operated with the greatest number of consumer complaints about the air conditioning system, the air conditioner of the air conditioner, in which the driver or the passenger feels very uncomfortable, is defenseless.

The fundamental cause of such odor is that the air conditioner is provided with an appropriate condition for propagating / propagating the infecting fungus, so that the fungus grows not only in the vicinity of the evaporator but also in the air conditioning system, There is a problem that the passengers are sucked into the room, causing a bad smell, headache and uncomfortable feeling.

In order to solve the above problems, JP-A-24-158320 discloses an air conditioning apparatus for removing mold by using a light source, a light guide plate, and a photocatalyst.

1 is a side view showing an air conditioning system of a UV deodorization system using a conventional photocatalyst.

Referring to FIG. 1, in an air conditioning system in Patent Document 1 (Japanese Unexamined Patent Publication No. 24-158320, Aug. 23, 2012), a light guide plate 110 is installed on a front surface of an evaporator core 100, A UV light source 120 is installed on one side of the evaporator core 100 and a photocatalyst (titanium) is coated on the evaporator core 100.

Therefore, when the photocatalyst of the evaporator core is reacted with UVA, active oxygen is generated on the surface of the evaporator core coated with the photocatalyst, and reactive oxygen is reacted with the odorous substance to neutralize the deodorant.

However, in such a case, the photocatalyst is difficult to be applied simultaneously with the evaporator core coating (hydrophilic and antibacterial), so there is a risk of odor due to moisture, and since the deodorizing action occurs only on the surface, there is a disadvantage that the working range is narrow. There is a drawback that the effect is insufficient.

In addition, since the light is dispersed in the light guide plate and reacted with the photocatalyst of the evaporator core, the energy loss of the ultraviolet ray is generated due to the efficiency and dispersion of the light guide plate, and the chemical reaction is reduced.

As described above, the conventional air conditioner is a technology using photocatalyst and UV, and focuses on deodorizing function rather than sterilization, and there is a problem that it is difficult to simultaneously apply the evaporator core hydrophilic / antibacterial coating, which is an improvement related to odor.

In addition, there is a problem in that the operation is performed only on the surface of the catalyst, so that it is not deodorized in the air, and the light guide plate is a light dispersion technique applied to illumination.

Therefore, it is possible to sterilize the front and rear air of the evaporator core together with the surface of the evaporator core with respect to the evaporator core of the air conditioning system of the vehicle, It is required to research and develop an evaporator core sterilizing device which maximizes the sterilization efficiency against the surface of the evaporator core and the front and rear constant local air.

Japanese Unexamined Patent Publication No. 24-158320 Aug. 23, 2012. Korean Public Patent No. 2012-0056655 Issue May 25, 2012. Registered Korean Patent No. 0745022 2007.07.26 Registered.

In order to solve the above-described problems, the present invention is characterized in that a front mounting bar and a rear mounting bar are provided at the front and rear of the evaporator core of the air conditioning duct in which the evaporator core is installed, and the front UV LED and the rear mounting bar And an object of the present invention is to provide an evaporator core sterilizing device which can sterilize the front and rear air of the evaporator core together with the surface of the evaporator core with respect to the evaporator core of the air conditioning system by including the rear UV LED .

In addition, according to the present invention, there are provided a front mounting bar and a rear mounting bar on the front and rear sides of the evaporator core of the air conditioning duct in which the evaporator core is installed, respectively, and a front UV LED installed on the front mounting bar and a rear UV LED The sterilizing process is performed on the entire area of the front and back air of the evaporator core together with the surface of the evaporator core so that the sterilizing efficiency of the surface of the evaporator core and the front and rear constant area air can be maximized. There is a purpose.

Another object of the present invention is to provide a photocatalytic coating layer formed on the inner surface of the ventilation duct in front of and behind the evaporator core of the air duct in which the front UV LED and the rear UV LED are applied, So that the sterilizing efficiency can be further improved with respect to air in a certain region before and after the evaporator core.

It is still another object of the present invention to provide a method of manufacturing an evaporator in which the front UV LED and the rear UV LED are spaced apart from each other in the horizontal direction by 40 to 80 mm from the front side and the rear side of the evaporator core, So that sterilization efficiency can be further improved against air in the area.

The present invention for achieving the above-mentioned objects is as follows. That is, the evaporator core sterilizer according to the present invention is installed at the front and rear of the evaporator core of the air conditioning duct to emit ultraviolet rays toward the front side and the rear side of the evaporator core to form front and rear surfaces of the evaporator core, And the air is blown into the front and rear air spaces of the front and rear sides of the evaporator core so as to be sterilized together. A front UV LED installed and fixed to both sides of the front mounting bar at predetermined intervals and selectively emitting ultraviolet rays toward the inner surface of the air conditioning duct and the evaporator core; A rear installation bar spaced at a predetermined interval from the rear of the evaporator core of the air conditioning duct; And a rear UV LED installed and fixed at both sides of the rear installation bar at predetermined intervals and selectively emitting ultraviolet rays toward the inner surface of the air conditioning duct and the evaporator core.

A photocatalytic coating layer is further formed on the inner surface of the ventilation duct so as to be sterilized together with the front surface of the evaporator core, .

Further, a photocatalytic coating layer is further formed around the inner surface of the air conditioning duct so as to be sterilized together with the rear surface of the evaporator core, .

In addition, the front UV LED is provided as a UVC type UV LED, while the rear UV LED is also provided as a UVC type UV LED.

It is preferable that the front UV LED and the rear UV LED are spaced apart from each other in the range of 40 to 80 mm in the horizontal direction with respect to the front side and the rear side of the evaporator core.

The effect of the evaporator core sterilizer according to the present invention will be described below.

First, a front UV LED installed on a front mounting bar and a rear UV LED installed on a rear mounting bar are provided with a front mounting bar and a rear mounting bar respectively on the front and rear of the evaporator core of the air conditioning duct in which the evaporator core is installed, The sterilizing treatment can be performed on the front and rear air of the evaporator core together with the surface of the evaporator core with respect to the evaporator core.

Second, the front UV LED installed on the front mounting bar and the rear UV LED installed on the rear mounting bar are provided on the front and rear sides of the evaporator core of the air conditioning duct in which the evaporator core is installed, It is possible to maximize the sterilizing efficiency of the surface of the evaporator core and the front and rear constant region air, by making the sterilizing process totally against the air in the front and rear regions of the evaporator core together with the surface.

Third, the front UV LED and the rear UV LED are applied, and a photocatalytic coating layer is formed around the inner surface of the air duct in front of and behind the evaporator core of the air duct in which the evaporator core is installed, thereby generating a photochemical reaction through ultraviolet irradiation, It is possible to further improve the sterilization efficiency with respect to air in the front and rear constant regions.

Fourth, the front UV LED and the rear UV LED are installed to be spaced from each other in the range of 40 to 80 mm in the horizontal direction from the front side and the rear side of the evaporator core, respectively, so that the sterilizing efficiency So that it can be further improved.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a side view showing an air conditioning apparatus of a UV deodorizing method using a conventional photocatalyst; FIG.
2 is a perspective view showing an evaporator core sterilizing apparatus according to the present invention;
3 is a cross-sectional exemplary view showing a sterilizing treatment structure for the front and rear of the evaporator core sterilizing apparatus according to the present invention;
4 is a cross-sectional view illustrating a state of use of the evaporator core sterilizing apparatus according to the present invention.

Hereinafter, preferred embodiments of an evaporator core sterilizing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view showing an evaporator core sterilizing apparatus according to the present invention, FIG. 3 is a cross-sectional view showing a sterilizing treatment structure for front and rear of an evaporator core sterilizing apparatus according to the present invention, Fig. 3 is a cross-sectional view illustrating a state of use of the evaporator core sterilizer according to the present invention.

2 to 4, the evaporator core sterilizing apparatus according to the preferred embodiment of the present invention is installed at the front and rear of the evaporator core 30 of the air conditioning duct 10, So that the sterilizing process is performed on the air in the front and rear regions of the evaporator core 30 together with the front and rear surfaces of the evaporator core 30.

The apparatus for sterilizing an evaporator core according to the present invention includes a front mounting bar 310, a front UV LED 320, a rear mounting bar 350 and a rear UV LED 360.

The front installation bar 310 is spaced upward and downward at a predetermined distance in front of the evaporator core 30 of the air conditioning duct 10.

That is, the front installation bar 310 is installed in front of the evaporator core 30 of the air conditioning duct 10 at a predetermined interval in the vertical direction.

The front UV LED 320 is installed and fixed to either side of the front mounting bar 310 at a predetermined interval on both sides of the front mounting bar 310. The front UV LED 320 is mounted on the inner circumference of the air conditioning duct 10, And selectively emits ultraviolet rays.

The front UV LED 320 is preferably provided as an ultraviolet (C) type UV LED.

The rear installation bar 350 is spaced apart from the evaporator core 30 of the air conditioning duct 10 at a predetermined interval on a day. In other words, the rear installation bar 350 is spaced apart from the air conditioning duct 30 And a pair of the evaporator cores (10) are arranged at a predetermined interval in the vertical direction behind the evaporator cores (30).

The rear UV LEDs 360 are fixed to both sides of the rear mounting bar 350 at predetermined intervals and selectively emit ultraviolet rays toward the inner circumference of the evaporator core 30 and the air duct 10, .

Such a rear UV LED 360 is preferably provided as an ultraviolet (C) type UV LED, in particular.

In other words, it is preferable that the front UV LED 320 and the rear UV LED 360 as described above are provided as ultraviolet (C) type UV LEDs, wherein the ultraviolet C type UV LED has a wavelength of 280 It is applied with a short wavelength ultraviolet ray of ~ 100 nm.

It is preferable that the front UV LED 320 and the rear UV LED 360 are selectively supplied with power through separate power supply and control means.

In the apparatus for sterilizing an evaporator core according to the present invention having the above-described structure, sterilizing treatment may be performed on the air in a predetermined region in front of the evaporator core 30 together with the front surface of the evaporator core 30 .

Therefore, it is preferable that a photocatalytic coating layer 380 is further formed on the inner surface of the air conditioning duct 10 over a predetermined width in front of the evaporator core 30.

In other words, it is preferable that the apparatus for sterilizing an evaporator core according to the present invention further comprises the photocatalytic coating layer 380.

In addition, it is also important that the sterilizing process of the evaporator core 30 together with the rear surface of the evaporator core 30 can be carried out with respect to air in a certain rear region of the evaporator core 30, It is preferable that a photocatalytic coating layer 390 is further formed on the inner surface of the air conditioning duct 10 over a predetermined width rearward of the evaporator core 30.

That is, the apparatus for sterilizing an evaporator core according to the present invention preferably further comprises the photocatalytic coating layer 380.

In other words, the evaporator core sterilizing apparatus according to the present invention is provided with the front and rear surfaces of the evaporator core 30 so that sterilizing treatment can be performed on the air in the front and rear regions of the evaporator core 30, And further includes a photocatalytic coating layer 380, 390 coated on the inner surface of the evaporator core 30 over a predetermined width in front of and behind the evaporator core 30, respectively.

At this time, the photocatalytic coating layers 380 and 390 are formed of titanium dioxide (TiO ₂ ) And a photochemical reaction in which a hydroxyl radical (OH-) is generated from the photocatalytic coating layers 380 and 390 when ultraviolet rays of the front and rear UV LEDs 320 and 360 are irradiated to the photocatalytic coating layers 380 and 390, It happens.

Therefore, dust, oil, and organic compounds around the evaporator core 30 are oxidized and decomposed into H ₂ O and CO ₂ by the strong oxidizing power of the hydroxyl radicals generated by the photochemical reaction, And photochemical reaction of photocatalyst by ultraviolet ray can also remove odor.

Furthermore, as the photo-catalytic material is applied as a photocatalyst coating layer (380, 390) as described above wherein the titanium dioxide (TiO ₂₎ in addition to zirconium oxide (ZrO _2), zinc oxide (ZnO _2), tin (SnO _2), cerium oxide ( CeO ₂ ), tungsten oxide (WO ₂ ), iron oxide (FeO ₃ ), or the like.

In particular, in the evaporator core sterilizing apparatus according to the present invention, the front UV LED 320 and the rear UV LED 360 are disposed on the front side and the rear side of the evaporator core 30, And 40 to 80 mm in the horizontal direction.

In other words, when the front UV LED 320 and the rear UV LED 360 are spaced apart from each other by a distance of less than 40 mm, the range of emission toward the front or rear surface side of the evaporator core 30 The number of UV LEDs for sterilizing the whole of the evaporator core 30 is increased and it becomes uneconomical. If the distance is more than 80 mm, it is too far, so that the ultraviolet rays emitted are directed toward the evaporator core 30 side The entire sterilization of the evaporator core 30 is difficult, thereby lowering the overall sterilization efficiency.

Therefore, the front UV LED 320 and the rear UV LED 360 are arranged in the range of 40 to 80 mm in the horizontal direction with respect to the front side and the rear side of the evaporator core 30, respectively, for optimum germicidal effect It is preferable to be spaced apart.

According to the evaporator core sterilizing apparatus of the present invention having the above-described construction, the front installation bar and the rear installation bar are provided in front of and behind the evaporator core of the air conditioning duct in which the evaporator core is installed, LEDs and rear UV LEDs mounted on the rear mounting bar can be used to sterilize the front and rear air of the evaporator core along with the surface of the evaporator core with respect to the evaporator core in the air conditioning system.

Further, a front UV LED installed on the front mounting bar and a rear UV LED installed on the rear mounting bar are provided on the front and rear of the evaporator core of the air conditioning duct in which the evaporator core is installed, It is possible to maximize the sterilizing efficiency of the surface of the evaporator core and the front and rear constant region air, by making the sterilizing process totally against the air in the front and rear regions of the evaporator core together with the surface.

In addition, the front UV LED and the rear UV LED are applied, and a photocatalytic coating layer is formed around the inner surface of the ventilation duct in front of and behind the evaporator core of the air duct in which the evaporator core is installed, thereby generating a photochemical reaction through ultraviolet irradiation, It is possible to further improve the sterilizing efficiency with respect to the air in the front and rear constant regions.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, the invention is not limited thereto. Various modifications may be made by those skilled in the art. Are included in the scope of the present invention.

10: Air duct
30: Evaporator core
310: front mounting bar 320: front UV LED
350: rear mounting bar 360: rear UV LED
380, 390: photocatalyst coating layer

Claims (3)

The evaporator core 30 and the evaporator core 30 are installed at the front and rear sides of the air conditioning duct 10 so as to emit ultraviolet rays toward the front side and the rear side of the evaporator core 30, A sterilizing apparatus for sterilizing an air in a predetermined region of the front and rear of a core (30)
A front mounting bar 310 spaced upward and downward at a predetermined interval in front of the evaporator core 30 of the air conditioning duct 10;
A front UV LED 320 installed at both sides of the front mounting bar 310 at predetermined intervals to selectively emit ultraviolet rays toward the inner circumference of the evaporator core 30 and the air duct 10;
A rear mounting bar 350 spaced apart from the evaporator core 30 of the air conditioning duct 10 by a predetermined distance at a predetermined interval; And
And a rear UV LED 360 installed at both sides of the rear mounting bar 350 at predetermined intervals to selectively emit ultraviolet rays toward the inner circumference of the evaporator core 30 and the air duct 10, / RTI >
The method according to claim 1,
So that the sterilizing treatment can be performed on the air in the front and rear regions of the evaporator core 30 together with the front and rear surfaces of the evaporator core 30,
Characterized in that a photocatalytic coating layer (380) (390) is further formed around the inner surface of the air conditioning duct (10) over a predetermined width before and after the evaporator core (30).
The method according to claim 1,
Wherein the front UV LED (320) and the rear UV LED (360) are spaced from each other in the range of 40 to 80 mm in the horizontal direction with respect to the front side and the rear side of the evaporator core (30) Device.

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