JP2004108685A - Air conditioner with dust removing, deodorizing, and sterilizing functions - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an air conditioner with dust removing, deodorizing, and sterilizing functions having sterilizing function capable of sterilizing bacteria existent in air in the surroundings as well as drain water in a drain pan in addition to dust removing and deodorizing functions. <P>SOLUTION: This air conditioner with the dust removing, deodorizing, and sterilizing functions is provided with a fan 4 circulating indoor air, an antibacterial dust removing filter 2 preventing dust included in air from passing, a catalyst deodorizing element 3 oxidizing and decomposing a bad smell substance included in air to make it odorless, a heat exchanger 5 arranged on the downstream side of the dust removing filter 2 and the deodorizing element 3, and a drain pan 6 arranged below the heat exchanger 5. Since an ultraviolet lamp 7 for irradiating ultraviolet rays to the inside of the heat exchanger 5 and drain water in the drain pan is arranged, bacteria which are not caught by the dust removing filter 2 are sterilized to prevent multiplication of microbe in drain water. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to an air conditioner with dust removal / deodorization / sterilization functions. More specifically, the present invention provides a dust removing / equipped with an antibacterial dust removing filter and a catalyst deodorizing element, as well as a drain pan installed inside an air conditioner and an ultraviolet lamp that prevents sterilization and growth of microorganisms present in the surrounding area. The present invention relates to an air conditioner with a deodorizing and sterilizing function.
[0002]
[Prior art]
In industrial clean rooms such as semiconductor manufacturing rooms and bio clean rooms used in the pharmaceutical and food industries, advanced air cleaning is required, and HEPA filters that can collect submicron particles with extremely high performance are used. I have. Further, in hospitals and geriatric medical facilities, it is necessary to maintain air cleanliness suitable for the use of each room in the facilities (see Non-Patent Document 1). For example, in general hospital rooms and examination rooms, an air conditioner having a dust removal / deodorization / bactericidal function compatible with the cleanliness IV class “general clean area” is required.
On the other hand, home and office air conditioners have recently been required to have more and more comfortable living spaces, and many air conditioners having a deodorizing / sterilizing function in addition to the conventional dust removing function have been proposed.
For the deodorizing treatment, an adsorption filter for removing odorous substances with an adsorbent such as activated carbon, and a deodorizing catalyst for oxidatively decomposing odorous substances (for example, see Patent Document 1) are used. A typical example of the bacteria elimination treatment is ultraviolet irradiation. As the deodorizing and disinfecting treatment, a method of simultaneously performing oxidative decomposition of odorous substances and sterilization of microorganisms using ozone or a photocatalyst is known. For example, an air conditioner with heat exchange fins including a dust removing unit, a humidifying unit, and an ozone deodorizing and sterilizing unit including an ozone generating mechanism and a catalyst for decomposing undecomposed ozone is known (see Patent Document 2). In addition, a deodorizing antibacterial unit containing an ultraviolet light source is provided inside the cylindrical honeycomb structure supporting the photocatalyst, and a dust filter, an adsorbent filter, a deodorizing antibacterial unit, and a heat exchanger are arranged in this order with respect to the flow of air. 2. Description of the Related Art An air conditioner with dust removal / deodorization / sterilization functions is known (see Patent Document 3).
[0003]
By the way, below the heat exchanger installed in the air conditioner, a drain pan for temporarily storing drain water in which moisture in the air is condensed on the heat exchanger surface is provided. Since the drain pan is in a wet state, it is in an environment in which various germs easily propagate, especially when contaminants are attached. As an air conditioner having an antibacterial function added to such a drain pan, for example, the following is proposed.
Patent Literature 4 discloses an air conditioner in which a composite sheet in which a resin film containing a fungicide / antibacterial agent is sandwiched between nonwoven fabrics is replaceably mounted on the bottom surface of a drain pan. In addition, a waterproof resin sheet, an antibacterial film made of a resin in which an inorganic antibacterial agent and an organic iodine antibacterial agent are blended, and a resin film having a plurality of holes through which the antibacterial agent can pass are used to form a foam resin drain pan. Patent Document 5 discloses a drain pan of an air conditioner sequentially laminated on an inner surface.
[0004]
[Non-patent document 1]
Japan Hospital Equipment Association Standard "Guidelines for Design and Management of Hospital Air Conditioning Equipment" HEAS-02-1998, Japan Hospital Equipment Association, 1998, pp. 6-12 [Patent Document 1]
JP-A-5-84441 [Patent Document 2]
JP-A-6-323571 [Patent Document 3]
JP 2000-354621 A [Patent Document 4]
JP-A-6-174251 [Patent Document 5]
JP 10-78241 A
[Problems to be solved by the invention]
However, antibacterial drain pans in these air conditioners use a film formed by kneading an antibacterial agent into a resin to prevent the propagation of various bacteria (microorganisms) in the drain pan. The effect is exerted only on the drain water in contact with the film surface, and there is a problem that sterilization of microorganisms is insufficient. Then, an object of the present invention is to solve the above-mentioned problems of the prior art, and in addition to the dust removal and deodorization functions, sterilizes not only the drain water in the drain pan but also microorganisms present in the surrounding air. It is an object of the present invention to provide an air conditioner having a dust removing / deodorizing / sterilizing function capable of performing the functions.
[0006]
[Means for Solving the Problems]
The air conditioner with dust removal / deodorization / sterilization function of the present invention comprises a fan that circulates indoor air, an antibacterial dust filter that prevents the passage of dust contained in air, and an oxidative decomposition of odorous substances contained in air. A catalyst deodorizing element that deodorizes by carrying out, a heat exchanger disposed downstream of the antibacterial dust filter and the catalyst deodorizing element, and a drain pan disposed below the heat exchanger. An ultraviolet lamp for irradiating ultraviolet rays to the drain water inside is disposed to disinfect microorganisms in the air and prevent the growth of microorganisms in the drain water.
In the present invention, it is preferable to dispose the antibacterial dust filter and another ultraviolet lamp that irradiates the air passing through the filter with ultraviolet rays, and dispose the catalytic deodorizing element downstream thereof. In addition, it is preferable that a drain hose for discharging drain water to the outside is connected to the drain pan, and the drain hose is formed of a hose member containing an antibacterial agent.
[0007]
[Action]
ADVANTAGE OF THE INVENTION According to the air conditioner of this invention, dust and microorganisms (bacteria, mold, and in some cases, viruses) contained in the air are removed by the antibacterial dust filter, and the odorous substances are oxidized and decomposed by the catalytic deodorizing element to deodorize. Is done. Further, the dedusted and deodorized air is cooled by the heat exchanger, moisture in the air is condensed on the surface of the heat exchanger, and the drain water drops on the drain pan. Microorganisms that are not collected by the dust filter or float in the apparatus when the operation is stopped adhere to the drain pan, but the microorganisms are sterilized by ultraviolet rays emitted from an ultraviolet lamp. Therefore, not only do the microorganisms not grow in the drain water in the drain pan, but also the microorganisms in the air passing through the heat exchanger without being collected by the dust filter are removed. Furthermore, since the dust filter is antibacterial, the growth of microorganisms collected together with dust is prevented. Therefore, even when dust, odorous substances and microorganisms are contained in the air at the time of starting the air conditioning, clean air that has been dust-removed, deodorized, and sterilized gradually circulates in the room. Further, the state of the cleaned air is maintained.
According to the invention according to claim 2, since another ultraviolet lamp that irradiates ultraviolet rays to the dust filter and the air downstream thereof is disposed, a part of the microorganisms collected by the antibacterial dust filter and Microorganisms that have passed through the dust filter without being collected are sterilized by irradiation with ultraviolet light. According to the third aspect of the present invention, since the drain hose for discharging the drain water in the drain pan to the outside is constituted by a hose member containing an antibacterial agent, the growth of microorganisms in the drain hose is prevented. In addition, the drain hose is kept clean in combination with the elimination of microorganisms in the drain pan described above.
[0008]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described in detail.
As shown in FIG. 1, an air conditioner having a dust removing / deodorizing / sterilizing function of the present invention has a casing 1 having an antibacterial dust removing filter 2, a catalyst deodorizing element 3, a fan 4, and a heat having a function of cooling air. An exchanger 5 is arranged. Below the heat exchanger 5, a drain pan 6 for receiving drain water is arranged. Further, an ultraviolet lamp 7 is disposed below the heat exchanger 5 and above the side of the drain pan 6, and an ultraviolet lamp 8 for irradiating ultraviolet light to the space between the dust filter 2 and the deodorizing element 3 may be disposed. it can. The dust filter 2 may be arranged downstream of the deodorizing element 3.
Room air is taken into the casing 1 from the suction port 9 by the fan 4, passes through the dust filter 2, the deodorizing element 3, and the heat exchanger 5, and purifies the purified cold air or hot air depending on the type of the heat exchanger 5. Is discharged from the air outlet 10 and circulates between the air conditioner and the room.
[0009]
The antibacterial dust filter 2 is a filter for collecting fine particles such as dust, dust, pollen, dead animals, bacteria, fungi, and viruses in the air, and contains an antibacterial agent that prevents the growth of microorganisms. As the dust filter 2, a medium-performance filter, a HEPA filter, a ULPA filter, an electrostatic filter, or the like is used. Above all, a medium-performance filter having a colorimetric method of 60% or more and conforming to the cleanliness IV class, in which an imidazole-based metal ion antibacterial agent is contained in synthetic fiber nonwoven fabric such as polypropylene, is suitably used. In addition, it may be either an automatic type or a unit exchange type. In particular, a mini-pleated type in which a ribbon-shaped filter paper or a resin string is sandwiched between filter media or a mountain of filter media is fixed with resin is used for filter exchange maintenance. It is preferably used because sometimes collected dust is difficult to diffuse.
In the catalyst deodorizing element 3, a filter or an air-permeable container is filled with a particulate carrier carrying a deodorizing catalyst for oxidatively decomposing odorous substances. Further, a honeycomb structure in which a deodorizing catalyst is supported on a honeycomb carrier can be preferably used because it can have a large contact area with air and a small pressure loss. Examples of the carrier include silica, alumina, titania, zeolite, and the like. As the deodorizing catalyst, a mixed oxide or a composite oxide of a trivalent iron oxide and an oxide of at least one metal selected from Mn, Co, Ni, Cu, Ce, Pd and Pt is preferable. is there. These oxides have the effect of oxidizing and decomposing odorous substances contained in air at room temperature or lower to deodorize them. Odorants include chemicals in hospitals and medical facilities, human waste, sweat, human odor, ammonia, hydrogen sulfide, methyl mercaptan, and other formaldehyde generated from building materials, unburned hydrocarbons in automobile exhaust gas, etc. and so on.
[0010]
The heat exchanger 5 has a function of cooling air. Examples thereof include a chilled water fan coil, a fan coil for circulating cold or hot water in the same pipe using a switching valve, a combination of a chilled water fan coil and a hot water fan coil, and a refrigeration for circulating a refrigerant. It may be an evaporator in the cycle, or one that can switch the same heat exchanger to a condenser used as an evaporator or heat pump. The circulation pipe connected to the fan-coil water-air heat exchanger 5 is preferably provided with a thermodynamic two-way valve that is opened and closed by an internal heater.
As the drain pan 6, a normal dish type is used, and it is preferable that the drain pan 6 be inclined toward the drain port side at a gradient of 1/50 or more so that drain water dropped from the heat exchanger 5 does not easily stay. Further, it is preferable that the drain hose connected to the drain port of the drain pan 6 and configured to discharge drain water to the outside is formed of a hose member having an antibacterial action. As the antibacterial drain hose, for example, a hose member in which a thiazolylsulfamide-based antibacterial / antifungal agent is contained in linear low-density polyethylene is preferably used. By connecting such an antibacterial drain hose to the drain pan 6, it is possible to prevent the growth of microorganisms inside the hose, so that the microorganisms do not diffuse from the drain hose into the indoor space.
[0011]
The ultraviolet lamps 7 and 8 only need to be luminous bodies that emit ultraviolet rays having a wavelength of 200 to 280 nm having a sterilizing action, and for example, a low-pressure mercury lamp having a wavelength of 254 nm is used.
The ultraviolet lamp 7 is arranged so as to directly irradiate the entire inside of the drain pan 6 with ultraviolet light, and microorganisms existing in the drain water are sterilized. In addition, ultraviolet rays are also applied to the inside of the heat exchanger 5 and the space between the heat exchanger 5 and the drain pan 6 where the drain water is dripped. Therefore, since the microorganisms do not grow in the drain water, the microorganisms do not diffuse from the drain pan 6 into the indoor space. In particular, if the wall of the air flow path on the outlet side facing the ultraviolet lamp 7 is formed by a punching plate, airborne bacteria in the blown air that has not been collected by the dust filter 2 and that has passed through the heat exchanger 5 can be removed. Can emit ultraviolet light.
When the ultraviolet lamp 8 is provided, the ultraviolet light is radiated to the air immediately before flowing into the deodorizing element 3 by being disposed at or near the side of the air flow path between the dust filter 2 and the deodorizing element 3, and its diffuse reflection Is directly or indirectly applied to the downstream side of the antibacterial dust filter 2. Therefore, the microorganisms that have passed through the dust filter 2 are sterilized, the growth of the microorganisms collected by the dust filter 2 is prevented, and a part is sterilized.
[0012]
The air conditioner with dust removal / deodorization / bactericidal function of the present invention can be used as a general household, office and business air conditioner in semiconductor manufacturing factories, precision product manufacturing factories, pharmaceutical and food factories, hospitals and geriatric medical facilities, etc. Can be used.
As the type of installation of the air conditioner, there are a ceiling embedded package type, a ceiling concealed duct type, and the like as well as a floor standing type, a wall hanging type, and a ceiling hanging type. In particular, in hospitals and geriatric medical facilities, a ceiling-embedded package type, which can be installed in the center of the room, has a good indoor temperature distribution, and can effectively use the indoor space, is preferable.
[0013]
Next, the present invention will be specifically described with reference to FIGS.
In FIG. 2, a casing 1 of the ceiling-embedded package air conditioner is formed of a box having a ceiling panel 21 as a bottom plate facing a ceiling opening. As shown in FIG. 3, the ceiling panel 21 has two suction ports 9, 9 formed between a central portion and both sides of the panel 21, and a rectangular blowing port is formed between each suction port 9 and both sides of the panel 21. Outlets 10a and 10b are formed.
The inside of the casing 1 is vertically divided by a lower partition plate 22. Note that the lower casing and the ceiling panel 21 are integrated as a cassette type unit, and the ceiling panel 21 is detachably attached to the unit for inspection.
In the lower space of the casing 1, an antibacterial dust filter 2 is disposed so as to face the suction ports 9, 9 covered with louvers. The antibacterial dust filter 2 is a medium-performance 65% colorimetric filter made of a synthetic fiber nonwoven fabric made of polypropylene and containing an imidazole-based metal ion antibacterial agent. The dust filter 2 can be replaced before clogging occurs, and is detachably supported by a wall 23 forming a suction air flow path in the unit.
[0014]
In the upper space of the casing 1, a fan 4 is disposed on one side, and a water-air heat exchanger 5 having a cassette type cold water fan coil 5a and a cassette type hot water fan coil 5b is disposed on the other side. ing. Below the fan 4, the catalyst deodorizing element 3 is arranged in the horizontal direction, and below the heat exchanger 5, a drain pan 6 that receives drain water dripped from the surface of the cold water fan coil 5a is arranged.
The catalyst deodorizing element 3 is formed of a honeycomb structure in which a deodorizing catalyst is supported on a honeycomb-shaped carrier, and is supported on a lower surface of a fan casing. The partition plate 22 facing the deodorizing element 3 has an opening (not shown) through which air sucked from the suction port 9 and passed through the dust filter 2 passes.
A vertical partition 24 is attached between the fan 4 and the heat exchanger 5, and an opening (not shown) is formed in the partition 24 facing the discharge port of the fan 4. Each of the fan coils 5a and 5b is connected to a cold heat source and a heat source outside the device via a circulation pipe. On the other hand, the stainless steel drain pan 6 is housed in a drain pan housing part 25 provided below the heat exchanger 5. The drain pan 6 is connected to an antibacterial drain hose (not shown) for discharging drain water out of the apparatus. This drain hose is obtained by adding a thiazolylsulfamide-based antibacterial / antifungal agent to a linear low-density polyethylene hose member.
[0015]
The cassette type unit is provided with a branch duct 26 (only part of which is shown) communicating with the outlets 10a and 10b covered with louvers. An opening (not shown) communicating with the downstream air flow path of the heat exchanger 5 is formed in the lower partition plate 22 at a position corresponding to the upstream end of the branch duct 26.
An ultraviolet lamp 7 composed of a low-pressure mercury lamp that emits ultraviolet light having a wavelength of 254 nm is disposed below the water-air heat exchanger 5 and above the drain pan 6. The ultraviolet lamp 7 directly irradiates the inside of the drain pan 6 with ultraviolet light, and irradiates the drain water dripped between the heat exchanger 5 and the drain pan 6 with ultraviolet light. In addition, the ultraviolet rays are incident from below the heat exchanger 5 and are also applied to the inside.
Further, an ultraviolet lamp 8 composed of a low-pressure mercury lamp that emits ultraviolet light having a wavelength of 254 nm is provided in a concave portion below the vertical partition plate 24. In the ultraviolet lamp 8, the wall 27 facing the ultraviolet lamp 8 in the air flow path communicating the dust filter 2 and the deodorizing element 3 is formed of an ultraviolet-transparent resin plate (or glass plate). The air immediately before passing through is irradiated with ultraviolet rays. Further, by forming irregularities on the reflector 28 covering the rear of the ultraviolet lamp 8 in a hemispherical shape, the irregular reflection from the reflector 28 is incident on the downstream side of the antibacterial dust filter 2.
[0016]
In the air conditioner shown in FIG. 2, the room air sucked from the suction ports 9, 9 of the ceiling panel 21 is dedusted when passing through the dust filter 2, and then deodorized when passing through the deodorizing element 3. As a result, the odorous substances are oxidatively decomposed and deodorized. Microorganisms that have passed through without being collected by the dust filter 2 are eliminated by irradiation of ultraviolet light from the ultraviolet lamp 8, and the microorganisms collected by the antibacterial dust filter 2 do not grow. Instead, a part of the bacteria is removed by ultraviolet rays that are irregularly reflected by the reflection plate 28.
The air dedusted and deodorized after passing through the deodorizing element 3 is cooled by the cold water fan coil 5a or heated by the hot water fan coil 5b. The air that has passed through the fan coil 5 a is condensed with water, and the drain water drops on the drain pan 6. The ultraviolet light is irradiated from the ultraviolet lamp 7 to the drain water during the dropping. In addition, since the inside of the drain pan 6 is irradiated with ultraviolet rays from the ultraviolet lamp 7, microorganisms adhering to the drain pan 6 and microorganisms in the drain water are eliminated. Further, since the ultraviolet rays also enter the heat exchanger 5 (5a, 5b), not only do the microorganisms not grow in the drain pan 6 but also the heat exchanger 5 is not collected by the dust filter 2. Microorganisms in the air passing through are also eliminated.
The air that has passed through the heat exchanger 5 is split by the branch duct 26 and is blown into the room from the outlets 10 a and 10 b formed in the ceiling panel 21.
In this way, even when dust, odorous substances, and microorganisms are contained in the air at the time of starting the air conditioning, clean air that has been dust-removed, deodorized, and sterilized gradually circulates in the room. Further, the state of the purified air is maintained.
[0017]
Further, another air conditioner of the present invention will be described with reference to FIG. The same components as those shown in FIGS. 2 and 3 are denoted by the same reference numerals, and redundant description will be avoided.
In FIG. 4, the antibacterial dust filter 2 and the catalyst deodorizing element 3 filled with the catalyst-carrying particulate carrier form a pair of frame members 32 fixed to the ceiling panel 21 as a dust removing / deodorizing unit 31 in an overlapped state. 32 is detachably mounted. At the center of the ceiling panel 21, a central panel 21a having suction ports 9, 9 is rotatably mounted on a shaft so that the unit 31 can be replaced.
The ultraviolet lamp 7 is disposed on the opposite side of the air flow path from the heat exchanger 5 to the branch duct 26 with the drain pan 6 interposed therebetween. In the drain pan housing 25 shown in FIG. 2, the side plate facing the ultraviolet lamp 7 is constituted by a punching plate 33, and the punching plate 33 on the air flow path side simultaneously forms an air flow path wall. Accordingly, the ultraviolet lamp 7 irradiates the inside of the drain pan 6 and the inside of the heat exchanger 5 with ultraviolet rays, and the blown air that has passed through the heat exchanger 5 from the through hole of the punching plate 33 forming the air flow path wall (the unevenness shown in the figure). (Oval shape) is also irradiated with ultraviolet rays. In addition, the arrangement positions of the drain pan housing 25 and the ultraviolet lamp 7 shown in FIG. 2 can be changed to the configuration shown in FIG.
In the present air conditioner, since the dust filter 2 and the deodorizing element 3 are unitized as described above, the ultraviolet lamp 8 is not provided. In addition, only the cassette type cold water fan coil 5a is arranged as the heat exchanger 5 to provide a cooling air conditioner with dust removal / deodorization / bacterial removal functions.
[0018]
【The invention's effect】
According to the present invention, since the ultraviolet lamp that irradiates ultraviolet rays to the air passing through the heat exchanger inside the air conditioner and the drain water in the drain pan is provided, the inside of the heat exchanger is not collected by the dust removal filter. The microorganisms in the air passing through and the microorganisms attached to the drain pan are sterilized by ultraviolet rays emitted from an ultraviolet lamp. Therefore, microorganisms do not grow in the drain water in the drain pan. Therefore, during the operation of the air conditioner, the clean, dedusted, deodorized and sterilized air circulates in the room.
[Brief description of the drawings]
FIG. 1 is an explanatory diagram of an air conditioner having a dust removing / deodorizing / bactericidal function of the present invention.
FIG. 2 is a sectional view of an air conditioner showing one embodiment of the present invention.
FIG. 3 is a perspective view of a ceiling panel in the air conditioner shown in FIG.
FIG. 4 is a sectional view of an air conditioner showing another embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Casing, 2 ... Antibacterial dust filter, 3 ... Catalyst deodorizing element, 4 ... Fan, 5 ... Heat exchanger, 6 ... Drain pan, 7, 8 ... Ultraviolet rays light.

Claims (3)

A fan that circulates indoor air, an antibacterial dust filter that prevents the passage of dust contained in the air, a catalytic deodorizing element that oxidizes and decomposes odorous substances contained in the air to make it odorless, an antibacterial dust filter and A heat exchanger arranged downstream of the catalyst deodorizing element, and a drain pan arranged below the heat exchanger, and an ultraviolet lamp that irradiates ultraviolet rays to the drain water inside the heat exchanger and the drain pan is arranged. An air conditioner with a function of removing dust, deodorizing, and removing bacteria, which removes microorganisms in the air and prevents the growth of microorganisms in drain water. The dust removal / deodorization / deodorization / deodorization / deodorization apparatus according to claim 1, wherein another ultraviolet lamp that irradiates ultraviolet rays to the antibacterial dust removal filter and air passing through the filter is arranged, and the catalytic deodorization element is arranged downstream of the filter. Air conditioner with disinfection function. 3. A dust removal / deodorization / bacterial elimination according to claim 1 or 2, wherein a drain hose for discharging drain water to the outside is connected to the drain pan, and the drain hose is constituted by a hose member containing an antibacterial agent. Air conditioner with function.

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