KR101569187B1 - Air-conditioner with sterilization and antibiotic and adsorption - Google Patents

Abstract

The present invention relates to an air-conditioner having sterilization and antibiotic and adsorption performance. The objective of the present invention is to improve filtering efficiency and also to improve assembly, by integrating a configuration of performing sterilization, purification (an antibiotic action and deodorization), and adsorption functions, as being able to perform heat exchange of air and sterilization, purification (an antibiotic action and deodorization), and adsorption removal of pollutants. The air-conditioner having sterilization and antibiotic and adsorption performance according to the present invention includes: a closed type case (10) having an inlet of air and an outlet of heat-exchanged air; a heat exchange unit (20) which is installed in the case and produces chilly air or warm air by exchanging heat with the air through a coolant; an intake unit (30) for forcibly taking air into the case; an air blowing unit (40) for forcibly blowing the chilly air or the warm air passing through the heat exchange unit; and one or more filter assemblies (50) which are installed between a discharge part of the heat exchange unit and the outlet of the air and performs sterilization by ultraviolet rays, antibiotic deodorization by activation of photocatalyst, and adsorption removal of an organic compound by a carbon filter of the air passing through the heat exchange unit. The filter assembly includes: a filter frame which is combined to the case to be separated; a UV lamp (60) which is installed on one side of the filter frame and sterilizes pollutant by irradiating the ultraviolet rays with the application of electricity from the outside; and the carbon filter (70) which comprises absorption holes (71), has a convex shape as having a photocatalyst layer (80) on a surface thereof, is accommodated in the filter frame to be replaced, and performs sterilization, deodorization of the pollutant, and adsorption removal of the organic compound through activation of the photocatalyst by the ultraviolet rays.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an air conditioner having sterilization, antibacterial and adsorption performance,

The present invention relates to an air conditioner, and more particularly, to an air conditioner having sterilization, antibacterial and adsorptive performance capable of sterilization, purification (antibacterial, deodorization), and adsorption removal of pollutants as well as air heat exchange.

2. Description of the Related Art Generally, an air conditioner is a device for controlling the cooling, heating, and air of an indoor unit, and includes a closed case, a heat exchanger (cooling coil, heating coil) installed inside the case, And a blowing means for forcedly blowing air into the room after allowing the air to pass through the air conditioning unit and passing air through the air conditioning unit to prevent the rise of power consumption generated when air is sucked into the room, And the air is mixed and then passed through a heat exchanger and supplied to the room.

Patent Document 1 (Japanese Patent No. 10-0382891) discloses an air conditioner comprising a suction unit for forcedly sucking indoor air into a cabin; A primary heat exchanger installed in the form of a plurality of flat plates stacked on the rear of the suction unit to raise or lower the air to an appropriate temperature; An air filter installed at the rear of the primary heat exchanger to purify the air; A secondary heat exchanger provided behind the air filter to increase or decrease the air temperature again; And an exhaust unit installed at the rear of the secondary heat exchanger for sucking heat-exchanged air and reducing it to the inside of the room. The air filter purifies the heat-exchanged air and does not contain sterilization, purification and adsorption The cleaning efficiency is very low and thus the room is contaminated by the air discharged through the air conditioner.

Patent Document 2 (Registration Practical Utility Model No. 20-0215604) discloses a method of manufacturing a filter in which a filter material composed of a nonwoven fabric for collecting a gravel material, a comb-stripe reinforcement net to be reinforced on both sides of the filter material, a reinforcement line for supporting them on both sides of the reinforcement net, The pretreatment filter of an air conditioner used as a pretreatment filter for purifying in a purifying system is composed of a frame for supporting and fixing the filter medium on the rim of the filter medium and the reinforcing line. The filter medium is made of an antibacterial filter material containing an antibacterial material in the nonwoven fabric, The antimicrobial filter material and the reinforcing net are formed by wrinkling, and the filtration by the nonwoven fabric and the antibacterial effect by the antibacterial material are possible. However, the efficiency of the two functions is low structurally and the overall filtering efficiency is low.

Patent No. 10-0382891 Registration Utility Model No. 20-0215604

Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method for sterilizing, purifying (antibacterial and deodorizing) And an air conditioner having sterilizing, antibacterial and adsorbing performance, which improves the efficiency of filtering and improves the assembling property by integrating a structure having an adsorption function.

An air conditioner having sterilization, antibacterial and adsorptive performance according to the present invention comprises: a closed case having an inlet for air and an outlet for heat-exchanged air; A heat exchanger installed in the case and performing heat exchange with air through a coolant to make cool or warm air; And at least one or more of the one or more sterilizing units provided between the discharge side of the heat exchanger and the discharge unit of the air for sterilizing air that has passed through the heat exchanger by ultraviolet rays and antibacterial deodorization by activation of a photocatalyst and adsorbing and removing organic compounds by a carbon filter The filter assembly includes a filter frame detachably coupled to the case, a UV lamp mounted on one side of the filter frame, for irradiating ultraviolet rays from an external source to sterilize contaminants, and a suction hole And a carbon filter which is exchangeably stored in the filter frame for antibacterial and deodorizing contaminants through activation of the photocatalyst layer by ultraviolet rays and adsorbs and removes organic compounds.

According to the air conditioner having sterilization, antibacterial and adsorption performance according to the present invention, the sterilization interval by the UV lamp - the purification interval by the photocatalyst - the adsorption interval by the carbon filter is formed, and the filtering efficiency of the air is increased, The reliability of the air conditioner is improved. In addition, since the carbon filter having the UV lamp and the photocatalyst layer is integrated through the filter frame, the filtering means (UV lamp, carbon filter with the photocatalyst layer formed) can be installed and disassembled only through fixing and separation of the filter frame. Maintenance is very easy.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is an overall view of an air conditioner having sterilization, antibacterial and adsorption performance according to the present invention; Fig.
2 is a front perspective view of a filter assembly applied to an air conditioner having sterilization, antibacterial and adsorption performance according to the present invention.
3 is a rear perspective view of a filter assembly applied to an air conditioner having sterilization, antibacterial and adsorption performance according to the present invention.
4 is an exploded perspective view of a filter assembly applied to an air conditioner having sterilization, antibacterial and adsorption performance according to the present invention.
5 is a side view of a filter assembly for explaining an action of an air conditioner having sterilization, antibacterial and adsorption performance according to the present invention.
6 is a front view showing an example in which a filter assembly applied to an air conditioner having sterilization, antibacterial and adsorption performance according to the present invention is applied.
FIG. 7 is a general view showing an example in which a guide is applied to an air conditioner having sterilization, antibacterial and adsorption performance according to the present invention. FIG.

As shown in FIG. 1, the air conditioner of the present invention has sterilizing, antibacterial, and adsorbing capabilities. The air conditioner includes a closed case 10, air introduced into the case 10, A heat exchanger 20 installed inside the case 10 for forcibly sucking air into the case 10 (a suction fan, a fan motor, etc.) An air blowing unit (blowing fan, fan motor) 40 for forcedly blowing cold air or warmth which has passed through the heat exchanger 30 to the room, a sterilizing unit 30 for sterilizing the air, And a filter assembly 50 for adsorbing and removing antibacterial (deodorization) and organic compounds.

The case 10, the heat exchanger 20, and the air blowing unit 30 are all applicable to a known air conditioner, and the following description is only an example for understanding, and the present invention is not limited thereto .

For example, the case 10 is provided with a discharge port 14 through which the air (cold or warm) that has passed through the inside air inlet 11, the inside air outlet 12, the outside air inlet 13 and the heat exchanger 20 is discharged That is, the inside air and the outside air together, and mixes the inside air and the outside air with each other through the heat exchanger 20. Since such a structure is known, a detailed description will be omitted.

The heat exchanger 20 is disposed in front of the discharge port 14 to change the mixer into a cold or warm air by heat exchange and discharge it to the room.

The suction unit (30) forces air into the interior of the case (10) and flows toward the heat exchanger (20).

The air blowing unit (40) blows the heat-exchanged air to be discharged to the room through the discharge port (14).

The filter assembly 50 is preferably disposed between the heat exchanger 20 and the air blowing unit 40 because contamination occurs during the heat exchange between the sterilization, It can be.

2 to 5, the filter assembly 50 is a structure in which the UV lamp 60, the carbon filter 70 and the photocatalyst layer 80 are integrated, and these structures 60, Is integrated through the frame (90), and can be applied and repaired easily and quickly through a single operation in which the filter frame (90) is installed in the case (10).

The filter frame 90 is in the form of a flat plate, and a through hole 91 through which air passes and in which the carbon filter 70 is received is formed.

The through holes 91 may vary depending on the number of the carbon filters 70. Since the carbon filter 70 has a fracture characteristic, if it is excessively large in size, the carbon filter 70 may be cracked during manufacture, handling (transportation, storage) and storage, ).

The filter frame 90 is formed at two or more places of the lamp holder 92 for fixing the UV lamp 60. [

The lamp holder 92 is structured such that the UV lamp 60 is fitted to the UV lamp 60 and the UV lamp 60 is mounted on the UV lamp 60 and is easily separated from the UV lamp 60. For example, Lt; / RTI >

That is, the photocatalyst layer 80 is formed on the carbon filter 70 and the UV lamp 60 and the carbon filter 70 are mounted on the filter frame 90 so that the UV lamp 60 and the photocatalyst layer 80 The formed carbon filter 70 is installed and disassembled into the case 10 through the filter frame 90 in a single operation.

The filter frame (90) is provided with fixing portions (93) which are fixed to the case (10) by bolting or the like on both sides in the longitudinal direction. The fixing portion 93 can be formed in various shapes such as a shape having a bolt hole formed in the longitudinal direction of the filter frame 90 while being bent, and a bolt hole formed in the reinforcement portion 94 described later.

The filter frame 90 can be constituted by bending reinforcing portions 94 in the upper, lower, right, left, up, down, left, and right sides to prevent warpage or the like.

The UV lamp 60 is mounted on the filter frame 90 by being fitted in the lamp holder 92. The UV lamp 60 receives power through a power line on one side and emits ultraviolet rays. The UV lamp 60 is formed of a transparent circular tube to emit ultraviolet rays in all directions, a part of the ultraviolet rays to the heat exchanger 20, and the remaining ultraviolet rays to the photocatalyst layer 80.

The carbon filter 70 has a cubic shape, for example, a hexahedron, a cylindrical shape, and the like, and is provided with a plurality of suction holes 71 opened on both sides to allow air to pass therethrough. The number of adsorption holes 71 is not limited to the shape, size and quantity shown in the drawings.

Since the length of the adsorption holes 71 is proportional to the adsorption performance, the length of the adsorption holes 71 is preferably long, because the carbon filter 70 adsorbs and removes organic compounds from the air passing through the adsorption holes 71 Do.

By using the plurality of carbon filters 70 in this way, it is possible to replace and maintain only the carbon filter 70 which requires some replacement, thereby reducing the maintenance cost.

The carbon filter 70 functions not only to adsorb and remove organic compounds through its own characteristics (adsorption), but also to provide a space for forming the photocatalyst layer 80. The carbon filter 70 has a surface It may be processed roughly (uneven).

The photocatalyst layer 80 is formed through a coating (deposition or the like) of a photocatalyst (titanium oxide or the like), and oxidizes and decomposes harmful substances to purify (antibacterial, deodorize, etc.) And the photocatalyst reacts with ultraviolet rays. Therefore, it is preferable that the photocatalyst is formed on the front surface of the carbon filter 70 having a large amount of ultraviolet rays, and the carbon filter 70 70). This is because when the photocatalyst layer is formed on the inner surface of the adsorption hole 71 of the carbon filter 70, the adsorption ability of the carbon filter 70 is lost.

In addition, a photocatalyst layer may be formed on the surface of the filter frame 90 to improve the purification efficiency.

Since the photocatalyst layer 80 is formed through a known method such as vapor deposition, a specific coating method is omitted. The thickness of the photocatalyst layer 80 is 0.01 mm or less, 0.01 to 2 mm, and the thickness is not limited thereto.

The carbon filter 70 coated with the photocatalyst layer 80 may be arranged along the longitudinal direction of the UV lamp 60 and may be arranged in two rows at two places vertically and horizontally.

The photocatalyst layer 80 is formed on the front surface of the carbon filter 70. The carbon filter 70 can be formed before and after the carbon filter 70 is mounted on the filter frame 90.

The carbon filter 70 is both housed directly in the filter frame 90 and applied through a separate filter cartridge 72. [

In the case of the former, a block storing portion, which is formed in connection with the through hole 91 of the filter frame 90 so as to stably store the carbon filter 70, in the form of a wall for supporting the periphery of the carbon filter 70, is integrally formed.

In the latter case, the filter cartridge 72 is provided with a block storage portion 73 for covering the periphery of the carbon filter 70 while allowing air to pass through the adsorption holes 71 of the carbon filter 70.

The block housing portion 73 is the same size as or similar to the front-back width (installation state reference) of the carbon filter 70.

The filter cartridge 72 is fixed to the filter frame 90 through, for example, riveting on both sides in the longitudinal direction.

In the drawing, the carbon filter 70 is shown in a hexagonal shape and the block containing portion 73 is shown as a square. The shape and size of the block containing portion 73 are different depending on the shape and size of the carbon filter 70.

On the other hand, the carbon filter 70 may be broken when it is stored in the block housing portion 73 of the filter cartridge 72 or the block housing portion of the filter frame 90 because the strength of the carbon filter 70 is weak. A cushion pad 74 is applied to the periphery.

The buffer pad 74 is made of a sponge, rubber, or the like to stably insert and store the carbon filter 70 in the block storage portion 73 without breakage while stably holding the inserted and stored state of the carbon filter 70, The carbon filter 70 may be bonded to the periphery of the carbon filter 70 or may be attached to the inner surface of the block housing portion 73 in advance.

The filter assembly 50 is sequentially arranged from one side (the reference left side in FIG. 5) to the UV lamp 60 - the photocatalytic layer 80 and the carbon filter 70.

As shown in FIG. 6, the filter assembly 50 having such a structure is mounted in two rows and two columns inside a case 10 (an inner case 10 is arranged in the longitudinal direction and spaced apart from each other by a certain distance 15), and can be mounted with an up-and-down height difference so as not to cause interference between adjacent ones of the left and right sides.

When the filter assemblies 50 are installed at a certain distance from each other, some air may escape the filter assembly 50, so that a guide for guiding the air to the filter assembly 50 may be applied.

As shown in FIG. 7, a guiding plate 16 in the form of an inclined plate is disposed between the heat exchanger 20 and the filter assembly 50 to guide the air having passed through the heat exchanger to the filter assembly 50. The guide 16 may be applied, for example, to upper, lower and central portions.

Also, an air filter may be applied to the front of the filter assembly 50, that is, between the heat exchanger 20 and the filter assembly 50. The air filter may be a product used in an air conditioner.

The action of the air conditioner having sterilization, antibacterial and adsorption performance according to the present invention is as follows.

Air introduced into the case 10 through the suction unit 30 passes through the heat exchanger 20 and the air is changed to cool air or warm air by operating the cooling or heating heat exchanger according to the selection of cooling and heating.

The air passing through the heat exchanger 20 passes through the filter assembly 50 of the present invention. In this process, the air is sterilized by bacteria, the harmful substances are purified (antibacterial, deodorizing, etc.) And then discharged into the room.

5, the front side of the UV lamp 60 is a sterilization period of the bacteria, and the rear side of the UV lamp 60 is a period of purification (antibacterial, deodorization, etc.) of harmful substances. ) Is the adsorption section of the organic compound.

The UV lamp 60 emits ultraviolet rays to the air passing through the heat exchanger 20, and the ultraviolet rays sterilize bacteria contained in the air.

The ultraviolet rays irradiated from the UV lamp 60 activate the photocatalyst of the photocatalyst layer 80 to form a purification zone by the photocatalyst. The air passing through the sterilizing zone passes through the purification zone, and the harmful substances are purified.

The air that has passed through the purification section passes through the adsorption holes 71 of the carbon filter 70, and organic compounds are adsorbed and removed in this process.

The purified air passing through the carbon filter (70) is discharged to the room.

The filter assembly 50 applied to the present invention can be operated or stopped together with the operation of the air conditioner or can be installed in the heat exchanger 20 together with the suction unit 30 and the air blowing unit 40, And can be used as an air purifier. Also, the filter assembly 50 can be controlled to be operated or stopped based on the sensed value by the contamination sensor. Such control is possible for both air conditioning and heating by the air conditioner, and air purifier. The contamination sensor detects the pollution degree of air blown into the room by being installed in the discharge port 14 of the case 10. The controller compares the current pollution degree detected by the pollution sensor with a predetermined reference pollution degree, (50) and stops the filter assembly (50) when it is below the reference contamination level.

10: case, 20: heat exchanger
30: Suction unit, 40: Ventilation unit
50: filter assembly, 60: UV lamp
70: carbon filter, 71: adsorption ball
80: photocatalyst layer, 90: filter frame

Claims (8)

A sealed case (10) having an inlet for air and a outlet for heat - exchanged air;
A heat exchanger (20) mounted inside the case and performing heat exchange with air through a coolant to make cool or warm air;
A suction unit (30) for forcibly introducing air into the case;
An air blowing unit (40) for forcibly blowing cool air or warm air having passed through the heat exchanger;
A sterilizing unit for sterilizing the air passing through the heat exchanger by ultraviolet rays, antibacterial deodorization by activation of a photocatalyst, and adsorbing and removing organic compounds by a carbon filter, provided between the discharge side of the heat exchanger and the discharge unit of the air, One or more filter assemblies (50) whose operation and stop are controlled based on the current pollution level detected by the pollution sensor;
And a contamination sensor for detecting contamination of air blown through an outlet of the case,
The filter assembly includes a lamp holder 92 detachably coupled to the case and having a plurality of through holes 91 through which air passes and two semicircular holder pieces, And a reinforcing portion 94 formed by bending the filter frame 90. The filter frame 90 is installed on one side of the filter frame and is mounted on the filter frame through the lamp holder, A UV lamp 60 for irradiating ultraviolet rays to sterilize contaminants, a filter cartridge 72 having a plurality of block storage portions 73 and both longitudinal sides thereof fixed to the filter frame, A plurality of adsorption holes 71 are provided and a photocatalyst layer 80 having a thickness of 0.01 to 2 mm is formed on the front surface of the photocatalyst layer 80. The photocatalyst layer 80 is replaceably housed in the filter cartridge, A plurality of carbon filters 70 provided in correspondence with the filter 91 for antibacterial and deodorizing contaminants through the activation of the photocatalyst layer by ultraviolet rays and adsorbing and removing organic compounds, And a guide (16) in the form of an inclined plate mounted between the heat exchanger and the filter frame for guiding air passing through the heat exchanger to the filter frame, wherein the air passing through the heat exchanger The UV lamp and the carbon filter are sequentially disposed through the filter frame so as to pass through the UV lamp and the carbon filter, and the UV lamp is constituted by a circular tube and irradiates ultraviolet rays to the front heat exchanger UV sterilization is performed, and the photocatalyst is irradiated with the carbon filter 70 to purify the photocatalyst,
Wherein the filter cartridge (72) surrounds the side surface of the carbon filter through the block receiving portion while allowing air to pass through the front surface of the carbon filter and the adsorption hole. The air conditioner . delete delete delete delete delete The air conditioner according to claim 1, wherein the filter assembly operates together with the suction unit and the air blowing unit separately from the heat exchanger to purify the air and blow air into the room. delete

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