JPH08327085A - Wet type air conditioner - Google Patents

Abstract

PURPOSE: To provide a wet-type air conditioner in which germs are not generated and its repairing and maintenance work can be easily performed. CONSTITUTION: A wet type air conditioner 10 is comprised of a cold water or hot water coil 14 in a main body easing 12 and water dispersion nozzles 16, 16... for atomizing cold water or hot water. Cold or hot water containing ozone therein is atomized toward the surface of the cold or hot water coil 14. Since ozone contained in the cold or hot water has a sanitizing action, the cold or hot water coil for atomizing the cold or cold water sanitizes germs to prevent germs from being promoted. With such an arrangement as above, the number of times of maintenance work is reduced as compared with that of the prior art wet type air conditioner and thus stopping of operation in a facility for maintenance work can be substantially decreased.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wet air conditioner, and in particular, cold and hot water is sprayed from a water spray nozzle, and the sprayed cold and hot water is brought into contact with each other to exchange heat, thereby producing conditioned air. Wet air conditioner.

[0002]

2. Description of the Related Art In recent years, office buildings are often fixed with windows due to the increase in the number of buildings, and the airtightness is improved. For this reason, the risk of contamination by airborne bacteria in the room increases, and a number of cases have been reported in which a worker who works in an air conditioner suffers from a poor physical condition called sick building syndrome, which is a problem.

As a result of the investigation, it was found that the source of the above-mentioned airborne bacteria is mainly inside the air conditioner having a low airflow velocity and high humidity, particularly a heat exchanger and a filter. In order to prevent the inflow, an antibacterial filter is installed at the indoor outlet of the conditioned air, and an air cleaner having an antibacterial effect is installed to create a clean work space.

However, the place most likely to be a source of bacterial contamination is the air conditioner itself, and no air conditioner having the function of sterilizing the air conditioner itself has been developed so far. For this reason, in the conventional air conditioner, the air conditioner itself has been sterilized by performing maintenance by regular cleaning, that is, performing manual cleaning, formalin fumigation, or the like. This manual cleaning and fumigation of formalin is extremely complicated and large-scale, and in order to ensure the safety of cleaning work and to prevent sterilizing gas such as formalin from diffusing into the air-conditioned space, There is a problem that the operation of the machine must be stopped for a long time. Therefore, there is a problem that the sterilization process cannot be performed with sufficient frequency in the air-conditioning equipment that is continuously operated day and night. Further, even in antibacterial filters and air purifiers, it is not possible to prevent contamination due to secondary scattering of bacteria without regular maintenance.

In the air conditioning system, cold and hot water is sprayed from a sprinkling nozzle, and the sprayed cold and hot water is brought into contact with air to perform heat exchange, and air is brought into contact with a heat exchanger. There is a dry air conditioner that exchanges heat by means of heat exchange, and the wet air conditioner generally has an advantage that the operating cost can be kept low as compared with the dry air conditioner.

[0006]

However, since the wet air conditioner uses water after opening it, moss and bacteria are easily generated, and enormous maintenance cost is required to maintain the water quality. There is a drawback that. The present invention has been made in view of such circumstances, and an object thereof is to provide a wet air conditioner that does not generate bacteria and is easy to maintain.

[0007]

In order to achieve the above object, the present invention provides a hot / cold water coil in a main body of an air conditioner and a spraying device for spraying cold water or hot water on the surface of the cold / hot water coil,
In a wet air conditioner that air-conditions by heat exchange of the air passing through the inside of the air conditioner main body with the cold / hot water coil and the cold / hot water sprayed from the spray device, ozone is added to the cold / hot water sprayed on the surface of the cold / hot water coil. An ozone removal layer for removing ozone contained in the conditioned air that has passed through the cold / hot water coil is provided downstream of the cold / hot water coil.

In order to achieve the above object, a filler and a spraying device for spraying cold water or hot water on the surface of the filler are provided in the main body of the air conditioner, and the air passing through the main body of the air conditioner is sprayed. In a wet air conditioner that performs air conditioning by exchanging heat with cold / hot water sprayed from the device, the cold / hot water sprayed on the surface of the filler contains ozone, and the air conditioner passed through the filler downstream of the filler. It is characterized in that an ozone removing layer for removing ozone contained in the air is provided.

[0009]

According to the present invention, cold / warm water containing ozone having a bactericidal action is sprayed on the surface of the cold / hot water coil or the filler, which is a source of bacterial contamination, to the surface of the cold / hot water coil or the filler. It is possible to prevent bacteria from propagating. Further, by spraying cold / warm water containing ozone, ozone is contained in the conditioned air supplied to the room to be conditioned. The ozone contained in this conditioned air is cooled by the cold / hot water coil. Only the conditioned air from which ozone has been removed and ozone has been removed is supplied to the air-conditioned room.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A preferred embodiment of a wet air conditioner according to the present invention will be described in detail below with reference to the accompanying drawings. FIG. 1 shows a configuration diagram of an embodiment of a wet air conditioner according to the present invention. As shown in the figure, a suction port (not shown) is formed on the right side of the main body casing 12 of the wet air conditioner 10 in the figure, and the air sucked from this suction port is used for the main body casing 12.
Introduced within. A cold / hot water coil 14 through which cold / hot water flows is installed in the main body casing 12, and the air sucked from the suction port is heat-exchanged to be cooled or heated by passing through the cold / hot water coil 14. It Above the cold / hot water coil 14, a plurality of sprinkling nozzles 1 for spraying cold / hot water containing ozone on the surface of the cold / hot water coil 14 are provided.
6, 16, ... Are provided. As a result, the air passing through the cold / hot water coil 14 is supplied to the water spray nozzles 16,
When the ozone-containing cold / hot water sprayed from 16, and ... Drops along the surface of the cold / hot water coil 14, the ozone / cool water also exchanges heat with the cold / hot water to be cooled or heated and also humidified by the cold / hot water. An air eliminator 18 is installed on the left side of the cold / hot water coil 14.
As a result, excess cold / warm water that is not used for humidifying the air is separated and collected and liquefied. An activated carbon filter 20 is installed on the left side of the air eliminator 18 in the figure. By passing the activated carbon filter 20 through the activated carbon filter 20, dust contained in the air is removed and ozone contained in the air is removed. To be done. The air from which dust and ozone have been removed is blown by a blower 22 installed on the left side of the activated carbon filter 20 in the figure, and is supplied to an air-conditioned room (not shown).

A water receiving water tank 24 is provided below the cold / hot water coil 14, and the cold / hot water falling along the surface of the cold / hot water coil 14 is collected in the water receiving water tank 24. The water receiving water tank 24 is connected to a cold / hot water storage tank 28 via a pipe 26. A pump 30 is installed in the pipe 26.
The cold / hot water collected in the water receiving water tank 24 is absorbed by the pump 30 and sent to the cold / hot water storage tank 28. Further, a cold / hot water generator 32 is installed in the pipe 26, and the cold / hot water collected in the water receiving water tank 24 is heated or cooled to a predetermined temperature by passing through the cold / hot water generator 32. It

The cold / hot water storage tank 28 stores a mixed liquid of the cold / hot water recovered in the water receiving water tank 24 and new cold / hot water cooled or heated to a predetermined temperature. New cold / hot water is supplied from a cold / hot water supply device (not shown) through a pipe 34, and is adjusted by a valve 36 so that the cold / hot water amount in the cold / hot water storage tank 28 is always constant. Further, an ozone generator 40 is connected to the cold / hot water storage tank 28 via a supply pipe 38, and ozone is supplied to the cold / hot water stored in the cold / hot water storage tank 28 by the ozone generator 40. The ozone supplied from the ozone generator 40 is bubbled in the cold / hot water of the cold / hot water storage tank 28 to produce cold / hot water enriched with ozone. Further, an ozone concentration measuring sensor 42 for detecting the ozone concentration in the cold / hot water is installed in the cold / hot water storage tank 28, and the measured value is output to a controller 44 for controlling the ozone generator 40. The controller 44 controls the ozone generation amount of the ozone generator 40 based on the measurement value of the ozone concentration measurement sensor 42 so that the ozone concentration in cold / hot water is always constant.

Cold and hot water containing ozone is pumped by the pump 46.
Water is absorbed by the sprinkler nozzle 1 through the pipe 48.
It is circulated and supplied to 6, 16, .... Further, the temperature adjustment and the humidity adjustment of the conditioned air supplied to the air-conditioned room are performed by adjusting the supply amount of cold / hot water supplied to the cold / hot water coil 14 and the supply amount of cold / hot water sprayed from the water spray nozzles 16, 16 ,. This is done by controlling. The amount of cold / warm water sprayed from the water spray nozzles 16, 16, ... Is controlled by controlling the opening / closing amount of a valve 50 installed in the pipe 48. The control of the valve 50 is performed by the valve controller 52, and the valve controller 52 controls the valve 50 based on the temperature of the conditioned air output from the temperature sensor 54 installed at the outlet of the conditioned air to control the air-conditioned room. The amount of cold and warm water sprayed is adjusted so that the room temperature of is the preset temperature. Further, the valve controller 52 similarly controls the supply amount of cold / hot water supplied to the cold / hot water coil 14.

The operation of the embodiment of the wet air conditioner according to the present invention constructed as described above is as follows. The cold / hot water stored in the cold / hot water storage tank 28 is maintained at a predetermined temperature and the concentration of ozone contained therein is maintained at a constant value. The cold / hot water stored in the cold / hot water storage tank 28 is
The water is absorbed by the pump 46 and sprayed from the water spray nozzles 16, 16, ... To the surface of the cold / hot water coil 14. The cold / hot water sprayed on the surface of the cold / hot water coil 14 travels along the surface of the cold / hot water coil 14 and contacts the air passing through the cold / hot water coil 14 to adjust the temperature and humidity of the contacted air. To do. In addition, at this time, the cold / hot water falling along the surface of the cold / hot water coil 14 sterilizes the cold / hot water coil 14 by the contained ozone.

The cold / hot water that has dropped along the surface of the cold / hot water coil 14 is collected in a water receiving water tank 24 installed below the cold / hot water coil 14. The cold / hot water collected in the water receiving water tank 24 is absorbed by the pump 30 to be stored in the cold / hot water storage tank 2
Return to 8 and circulate. The cold / hot water returned from the water receiving water tank 24 to the cold / hot water storage tank 28 is cooled or heated to a predetermined temperature when passing through the cold / hot water generator 32 installed in the pipe 26.

On the other hand, the air sprayed with cold / warm water containing ozone is subjected to water eliminator 18 to remove water droplets and activated carbon filter 20 to remove ozone contained in the air, and then supplied to the air-conditioned room. It As described above, in the wet air conditioner 10 of the present embodiment, ozone is contained in the cold / hot water sprayed toward the surface of the cold / hot water coil 14, thereby utilizing the sterilizing effect of the ozone and bacteria in the main body casing 12 are utilized. Can be prevented from breeding. As a result, the frequency of maintenance is reduced as compared with the conventional wet air conditioner, the frequency of facility stoppage due to maintenance can be significantly reduced, and the maintenance cost can be reduced.

In this embodiment, the temperature of the conditioned air is adjusted by using the cold / hot water coil 14, but a filler is installed in place of the cold / hot water coil 14, and cold / hot water is placed on the surface of the filler. The present invention can also be applied to a wet air conditioner that controls the temperature and humidity of the air by spraying and exchanging heat of the air passing through the filler.

[0018]

As described above, according to the wet air conditioner of the present invention, cold / hot water containing ozone having a bactericidal action is sprayed on the surface of the cold / hot water coil or the filler, which is a source of bacterial contamination. As a result, it is possible to prevent bacteria from growing on the surface of the cold / hot water coil or the filler. As a result, the frequency of maintenance is reduced as compared with the conventional wet air conditioner, the frequency of facility stoppage due to maintenance can be significantly reduced, and the maintenance cost can be reduced.

[Brief description of drawings]

FIG. 1 is a configuration diagram of an embodiment of a wet air conditioner according to the present invention.

[Explanation of symbols]

 10 ... Wet air conditioner 12 ... Main body casing 14 ... Cold / hot water coil 16 ... Sprinkling nozzle 18 ... Air eliminator 20 ... Activated carbon filter 24 ... Water receiving water tank 28 ... Cold / hot water storage tank 40 ... Ozone generator

Claims (2)

[Claims] 1. An air conditioner main body is provided with a cold / hot water coil and a spraying device for spraying cold water or hot water on the surface of the cold / hot water coil, and air passing through the inside of the air conditioner main body is provided with the cold / hot water coil and the spraying device. In a wet air conditioner that performs air conditioning by exchanging heat with cold / hot water sprayed from, the cold / hot water sprayed on the surface of the cold / hot water coil contains ozone, and the cold / hot water coil is passed downstream of the cold / hot water coil. A wet air conditioner having an ozone removing layer for removing ozone contained in the conditioned air. 2. An air conditioner main body is provided with a filling material and a spraying device for spraying cold water or hot water on the surface of the filling material, and the air passing through the inside of the air conditioner main body is heated by the cold and hot water sprayed from the spraying device. In a wet air conditioner that air-conditions by exchanging, while containing ozone in the cold and hot water sprayed on the surface of the filler, ozone contained in the conditioned air that has passed through the filler on the downstream side of the filler A wet air conditioner having an ozone removal layer for removal.