KR200429518Y1 - Ventilation unit with wet type air cleaner - Google Patents

Abstract

The present invention relates to a ventilation unit, and more particularly, a wet air purifying device which exchanges heat by crossing outdoor air and indoor air, and adsorbs and removes dust or harmful substances contained in outdoor air by fine water droplets. It relates to a ventilation unit.

Ventilation unit with a wet air purifying device according to the present invention, the air supply passage and the air exhaust passage is partitioned by the partition, the air supply fan installed on one side of the air supply passage, one side of the air exhaust passage A heat exchanger installed at an intersection of the installed air exhaust fan, the outdoor air supply passage and the internal air exhaust passage and allowing heat exchange between the indoor air and the outdoor air through the heat exchange membrane, and a fine droplet filtration membrane on the external air supply passage. In the ventilation unit with a wet air purifier comprising a wet air purifier which is installed to be formed, the heat exchange membrane of the heat exchanger is made of a material resistant to moisture, the bottom of the heat exchanger is the wet air purification A condensate tray for receiving condensate generated from the humid air passing through the apparatus, Condensate collected in the condensate tray is characterized in that configured to flow to the wet air purifier.

Ventilation unit, ventilation unit, air cleaner, water drop, filter, condensate, dehumidification

Description

Ventilation unit with a wet air purifier {VENTILATION UNIT WITH WET TYPE AIR CLEANER}

1 is a schematic configuration diagram showing a general ventilation unit according to the prior art,

2 is a cross-sectional view showing an example of a ventilation unit equipped with an air purifier according to the prior art;

3 is an installation view showing a state in which the ventilation unit equipped with a wet air purifier according to the present invention is installed on the ceiling,

4 is a perspective view showing a ventilation unit equipped with a wet air purifying apparatus according to the present invention;

5 is a perspective view showing a wet air purifying apparatus according to the present invention,

Figure 6 is a cross-sectional view showing a wet air purifying apparatus according to the present invention,

Figure 7 is an enlarged side view showing a part of the ventilation unit with a wet air purifying apparatus according to the present invention,

8 is a perspective view showing a condensate tray according to the present invention;

9 is a cross-sectional view showing a wet air purifier according to the present invention.

*** Description of the symbols for the main parts of the drawings ***

1. Ventilation unit 2. Housing

3. Air supply passage 4. Bulkhead

5. Bet exhaust passage 6. Outside air supply fan

7. Heat exchanger 8. Bet exhaust fan

10. Wet air purifier 11. Fine droplet filter membrane

12. Case 13. Nozzle tube

14. Separation Wall 17. Polluted Water Reservoir

19. Rinsing water reservoir 24. Dehumidification network

25. Thermoelectric element 29. UV lamp

32. Outside air inlet 34. Outside air outlet

44. Contaminated Water Discharge Pipe 45. Discharge Pipe Control Valve

50. Control unit 65. Supply line control valve

66. Tap water supply line 74. Condensate tray

75. Pollution degree measuring instrument 85. Circulation pipe control valve

86. Water circulation pump 88. Rinsing water circulation pipe

95. Water level meter

The present invention relates to a ventilation unit, and more particularly, a wet air purifying device which exchanges heat by crossing outdoor air and indoor air, and adsorbs and removes dust or harmful substances contained in outdoor air by fine water droplets. It relates to a ventilation unit.

In general, the air in an enclosed space increases the concentration of carbon dioxide over time by the breathing of life. In addition, indoor air is contaminated by volatile organic compounds (VOCs) such as formaldehyde emitted from indoor dust and building materials. These pollutants cause respiratory diseases such as asthma and atopic dermatitis, and the unpleasant odor caused by the decay of organic substances causes symptoms such as dizziness and lethargy, which adversely affects health. Therefore, in an enclosed room such as an office or a house, a ventilation device (or a ventilation system, a ventilation unit) (hereinafter referred to as a 'ventilation unit') that periodically supplies fresh air from outside is contaminated by circulating indoor air. An air purifier or air purifier (hereinafter referred to as the "air purifier") that removes material shall be used.

That is, as a method for reducing indoor air pollution, a ventilation method for largely exhausting indoor air contaminated through a ventilation unit and supplying fresh air to the room, and pollution contained in indoor air using an air purifier. There is an air purification method to remove material.

The ventilation unit used in the former method is configured to include a blower for forcibly blowing the indoor air and outdoor air, and exhausts the contaminated indoor air to the outdoor side and also supplies fresh outdoor air to the indoor side. In the ventilation unit, when the air conditioner is operated indoors, heat exchange occurs between the exhausted indoor air and the supplied outdoor air to prevent the hot and cold air from flowing in as it is, thereby reducing the cooling and heating efficiency. A heat exchanger is provided.

However, these ventilation units can be used on the premise that the outdoor air is quite clean. However, outdoor air can be polluted no less than indoor air at certain times, such as when a house or office is in a city or factory, or when yellow dust occurs. In other words, the ventilation is known to be the most efficient air purification method so far, but there is a closure that does not achieve the effect when the outdoor air is seriously polluted.

In addition, since the air purifier used in the latter method is to continuously recycle the air in a limited space, there is a disadvantage that the carbon dioxide in the indoor air increases to cause oxygen deficiency. In addition, such an air purifier has a remarkable difference in air purifying ability according to the performance of a filter for purifying contaminated air, and furthermore, there is a problem in that it may increase the pollution of indoor air rather than replacing the filter in a timely manner. . That is, there is a limit in solving indoor air pollution with only the air purifier.

Accordingly, recently, a ventilation unit capable of performing both ventilation and air purification functions has been developed. That is, the ventilation unit equipped with such an air purifier additionally installs an air purifying device such as a filter, an ion generator, a plasma generator, etc. in the conventional ventilation unit to purify outdoor air introduced into the room or circulate and purify the indoor air. It is configured to do so.

For example, Figure 1 schematically shows the structure of a general ventilation unit (1). As shown, an outside air supply passage 3 is provided inside the box-shaped housing 2 to guide the outdoor air to the interior, and intersects with the outside air supply passage 3, and the indoor air is led to the outside. The furnace 5 is provided. The outside air supply passage 3 and the inside air exhaust passage 5 are not interfered with each other by the partition wall 4 partitioning the inside of the housing 2.

 At one end of the outside air supply passage 3, an outside air inlet 32 is formed to communicate with the outside, and at the other end, an outside air outlet 34 is formed to communicate with the interior, and at one end of the inside air exhaust passage 5, the interior communicates with the room. The indoor air intake port 52 is formed, and the other end is formed with an internal air discharge port 54 in communication with the outdoors. A duct is connected to the suction port and the discharge port 32, 34, 52, and 54, respectively. The outside air supply fan 6 forcibly suctioning outdoor air is provided on the outside air discharge port 34 side of the outside air supply passage 3, and the indoor air is forcedly discharged on the inside air discharge port 54 side of the inside air exhaust passage 5. A bet exhaust fan 8 is provided.

In addition, a heat exchanger 7 is installed at a central portion of the housing 2 where the outside air supply passage 3 and the inside air exhaust passage 5 intersect in a diagonal direction. The heat exchanger 7 has a hexahedron shape in which upper and lower edges are supported by the housing 2 and left and right edges are supported by the partition wall 4, and a plurality of air supply passages communicating therein with the external air supply passage 3 ( A plurality of exhaust passages (not shown) in communication with the bet exhaust passage 5 are provided. A heat exchange membrane having excellent heat conduction efficiency is provided at the boundary between the air supply passage and the exhaust passage.

Therefore, when indoor air is contaminated, power is applied to the indoor air exhaust fan 8 and the indoor air flows into the internal air exhaust passage 5 through the internal air intake port 52, and then the exhaust air passage 5b of the heat exchanger. It is exhausted to the outside through the bet discharge port 54 through. At the same time, while the outdoor air supply fan 6 is supplied with power, fresh outdoor air flows into the outside air supply passage 3 through the outside air inlet 32, and then passes through the air supply passage 3b of the heat exchanger, and then discharges the outside air 34. Through the room). At this time, the indoor air and the outdoor air passing through the heat exchanger 7 exchanges heat through the heat exchange membrane.

As described above, the heat exchange type ventilation unit may prevent the rapid rise or fall of the indoor temperature as outdoor air supplied to the indoor air is primarily heat exchanged with indoor air and then introduced into the room when the indoor air is cooled or heated. However, there is a problem that indoor air is polluted when outdoor air contaminated with fine dust or volatile organic compounds is introduced into the room while supplying outdoor air to the room.

In consideration of this point, Korean Patent Publication No. 10-600621 discloses a functional air purifying filter system for a heat exchanger that emits negative ions and far infrared rays, and has antibacterial and deodorizing functions and a heat purifier for an air purifier including the same. Present a ventilation unit equipped with.

That is, as shown in Figure 2, the conventional design provides an air purification filter system for a heat exchanger that can filter various harmful substances introduced with outdoor air, deodorization and antibacterial function, as well as anion. To this end, the conventional design is a heat exchanger for exchanging the heat of the outside air and the air discharged to the outside, a plurality of filters and plasma generators disposed in the outdoor air inlet, anion generator installed behind the heat exchanger And the like. That is, the prior art employs a filtration filter such as a ceramic filter and an activated carbon filter to remove contaminants contained in outdoor air.

As such, the ventilation unit equipped with the air purifier is usually provided with various filters for filtering contaminants on the outdoor air supply passage. However, these filters filter and accumulate dust and contaminants and must be replaced or cleaned periodically.

On the other hand, since the ventilation unit is installed in a high place such as a ceiling, it is difficult for general users to access. Therefore, professional help is required to replace or clean the filter of the ventilation unit. In addition, since the ventilation unit is covered by a ceiling finishing plate or the like and cannot be seen from the outside, it is not easy to check the filter contamination or its replacement time. For this reason, the filter is often left without changing for a long time. In this case, bacteria in the outdoor air introduced are multiplied by the filter, which threatens the health of the user who uses the ventilation unit. In addition, when the contaminants accumulate in the filter, there is a problem that the blowing loss increases.

The present invention has been made to solve the problems of the prior art, the main object of the present invention is a ventilation unit equipped with a wet air purifier does not need to replace the filter, the humidified air passing through the wet air purifier It is to provide a structure of a heat exchange membrane and a condensate tray for treating a large amount of condensate produced when passing through the heat exchanger.

The present invention also provides a ventilation unit equipped with a wet air purifier that can maintain the air purifying function at all times without replacing the filter by directly supplying or discharging the washing water used in the wet air purifier through the tap water and the sewage pipe.

As a means for achieving the above object of the present invention, the ventilation unit with a wet air purifying device according to the present invention, the housing and the outside air supply passage and the internal exhaust exhaust passage partitioned by the partition wall, on one side of the air supply passage The installed air supply fan, the air exhaust fan installed on one side of the air exhaust passage, and the heat exchanger is installed at the intersection of the air supply air passage and the internal air exhaust passage and heat exchange between the indoor air and the outdoor air through the heat exchange membrane In the ventilation unit is provided with a wet air purifying device configured to include, and a wet air purifying device is installed to form a fine droplet filter membrane on the outside air supply passage,

The heat exchanger membrane of the heat exchanger is made of a material resistant to moisture, and a condensate tray for receiving condensate generated by humid air passing through a wet air purifier is installed at a lower portion of the heat exchanger, and the condensate tray has a front surface and The rear side is open in the form of a box, the opening corresponding to the inclined surface of the heat exchanger is opened so that all the condensate falling from the heat exchanger in the front, the purified air from the wet air purifier is introduced into the rear as it is Opening is formed so that the lower portion is characterized in that the condensed water is sealed to flow into the wet air purifier.

In addition, a preferred embodiment of the wet air purifying apparatus according to the present invention is a case in which the lower part is sealed to store a certain amount of water and the inlet and the outlet are penetrated so that outdoor air can pass through both sides, and the case A nozzle tube installed to supply tap water and spray fine droplets into the inflowing outdoor air, and a water circulation installed to continuously circulate the washing water stored on one side of the case through the nozzle tube. It is configured to include a pump.

The lower part of the case is divided into a contaminated water reservoir and a washing water reservoir through a partition wall, and a contaminant discharge pipe for discharging contaminated water is communicated to the bottom of the contaminated water reservoir, and the contaminated water discharge pipe is connected to A discharge pipe control valve is installed to control the discharge. In addition, a washing water circulation pipe for circulating the washing water to the nozzle tube is connected to the bottom of the washing water reservoir, and the water circulation pump for pumping and washing the washing water is connected to the washing water circulation pipe, and the washing water. A circulation pipe control valve is installed to control the flow of gas.

Subsequently, the above-described nozzle tube is installed at one end of the tap water supply pipe, and a water tap for supplying tap water is connected to the other end. In addition, a plurality of nozzle balls are drilled on the outer circumferential surface of the nozzle tube, and a mesh network is provided on the outside thereof.

In addition, a dehumidification network for purifying outdoor air and removing water droplets or water is installed inside the case, and the dehumidification network is cooled to a dew point or less in contact with the thermoelectric element. In addition, one or more ultraviolet lamps are installed inside the case, and the inner wall or the dehumidification network of the case is coated with a photocatalyst.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the ventilation unit equipped with a wet air purifying apparatus according to the present invention.

First, FIG. 3 is an installation view showing a state in which a ventilation unit 1 equipped with a wet air purification device according to the present invention is installed on a ceiling, and FIG. 4 shows a ventilation unit with a wet air purification device according to the present invention. 5 is a perspective view illustrating a wet air purifier according to the present invention, and FIG. 6 is a cross-sectional view showing the wet air purifier according to the present invention.

As shown in the drawing, the ventilation unit 1 equipped with the wet air purifying apparatus according to the present invention includes a housing 2 in which an external air supply passage 3 and an internal air exhaust passage 5 are partitioned by a diaphragm 4. And an outdoor air supply fan 6 installed at the inlet side of the external air supply passage 3 to induce the flow of outdoor air, and installed at the inlet side of the internal air exhaust passage 5 to induce the flow of indoor air. It is installed to cross the inside of the internal air exhaust fan (8) and the housing (2), the outdoor air supply passage (3) and the internal air exhaust passage (5) to cross the diagonal direction and at the same time the outdoor air and indoor air Forming a heat exchanger (7) consisting of a plurality of heat exchange membranes arranged to cross heat exchange and a fine water droplet filtration membrane (11) formed on the outside air supply passage (3) and formed by spraying fine water droplets, Passing outdoor air from outside And is configured so that, including the dust and liquid air purifying device (10) for supplying a clean purified by removing the adsorbed contaminants outdoor air into the room in the air.

As shown, the wet air purifying apparatus 10 according to the present invention is installed on the outside air supply passage 3 adjacent to the outside air inlet 32. The wet air purifier 10 includes a tap water supply pipe 66 connected to a tap water (not shown), and a contaminated water discharge pipe 44 connected to a sewage pipe (not shown). Therefore, the washing water required for air purification is directly supplied from the tap water through the tap water supply pipe 66, and contaminated water containing contaminants by air purification is directly discharged to the sewage pipe through the polluted water discharge pipe 44. Can be.

Therefore, the ventilation unit 1 equipped with the wet air purifying apparatus 10 according to the present invention, when power is applied to the bet exhaust fan 8, the indoor air to the bet exhaust passage 5 through the bet air inlet 52 After being introduced, it passes through the exhaust air passage 5b of the heat exchanger 7 and is discharged to the outside through the air outlet 54. At the same time, when power is supplied to the outside air supply fan 6, the outdoor air enters the wet air purifier 10 through the outside air inlet 32 and passes through the fine water droplet filtration membrane 11 made of water droplets that are finely sprayed. The dust or contaminants contained therein are removed and then introduced into the room through the air supply port 34 through the air supply passage 3b of the heat exchanger 7. At this time, the indoor air and the outdoor air passing through the heat exchanger 7 is exchanged with the heat exchange membrane therebetween.

Next, with reference to Figures 5 and 6, it will be described a preferred embodiment of the wet air purifying apparatus 10 according to the present invention.

As shown, the wet air purifying apparatus 10 according to the present invention is to separate the dust and harmful substances contained in the air by using the tap water, the bottom is sealed to store a certain amount of tap water and the outdoor air passes through A nozzle 12 is formed on both sides so that the inlet 22 and the outlet 23 are formed on both sides, and a nozzle is provided to supply tap water into the case 12 and spray fine droplets into the inflowing outdoor air. The tube 13 and the water circulation pump 86 (FIG. 6) provided so that the washing water stored in the case 12 can be continuously circulated through the nozzle tube 13 are comprised.

In the wet air purifying apparatus 10 of the present invention, the lower part of the case 12 is partitioned into a contaminated water reservoir 17 and a washing water reservoir 19 through a partition wall 14 having a predetermined height. The contaminated water reservoir 17 stores dust and contaminants that are dropped along with water and fine water droplets injected into the air from the nozzle tube 13. At this time, the heavy particles of the contaminants dropped to the contaminated water reservoir 17 sinks to the bottom of the contaminated water reservoir 17 and the light material floats on the water surface.

The washing water reservoir 19 is a place where the washing water to be supplied to the nozzle tube 13 is stored, from the contaminated water of the contaminated water reservoir 17 through a screen 15 or the like installed on the separation wall 14. Entering with contaminant removed. Therefore, the water levels of the contaminated water reservoir 17 and the washing water reservoir 19 are the same.

Then, a contaminated water discharge pipe 44 for discharging contaminated water is connected to the bottom of the contaminated water reservoir 17, and a discharge pipe control valve 45 for controlling discharge of contaminated water is connected to the contaminated water discharge pipe 44. Is installed. The discharge pipe control valve 45 is electrically connected to a controller 50 to be described later as a solenoid valve. One end of the contaminated water discharge pipe 44 is connected to a sewage pipe (not shown) as described above.

On the other hand, the control unit 50 is installed on the outer surface of the housing 2 of the ventilation unit 1, the overall control of the ventilation unit 1 and the wet air purifier (10). To this end, the controller 50 has a microprocessor in which software is embedded and a power supply unit for supplying power. Also preferably, the control unit 50 is provided with a remote receiving unit 51 so that the user can remotely control the remote controller.

A washing water circulation tube 88 for circulating the washing water into the nozzle tube 13 is connected to the bottom of the washing water reservoir 19, and the washing water is pumped on the washing water circulation tube 88. A water circulation pump 86 for pumping the nozzle pipe 13 and a circulation pipe control valve 85 for controlling the flow of the washing water are provided. One end of the washing water circulation pipe 88 is connected to the tap water supply pipe 66 through the T-type connecting pipe 83. In addition, the circulation pipe control valve 85 is electrically connected to the control unit 50 as a solenoid valve, and the water circulation pump 86 is also connected to the control unit 50.

Subsequently, the nozzle tube 13 described above is installed at one end of the tap water supply pipe 66, and a water tap for supplying tap water is connected to the other end. On the outer circumferential surface of the nozzle tube 13, a plurality of nozzle holes 36 are drilled, the outside of which is wrapped in a mesh net. And the nozzle pipe 13 is preferably installed to be located above the contaminated water reservoir 17. In addition, the tap water supply pipe 66 is provided with a supply pipe control valve 65 for controlling the flow of tap water, the supply pipe control valve 65 is connected to the control unit 50.

On the other hand, the bottom surface of the contaminated water reservoir 17 is formed with a discharge port 72 formed concave downward to discharge the sediment or suspended matter well, the contaminant is a nozzle tube on the bottom surface of the washing water reservoir (19) An inlet 92 through which a screen (or filter) for preventing the inflow to 13 is provided is formed to be convex upward.

In addition, the contamination water reservoir 17 is provided with a pollution degree measuring device 75 for measuring the contamination (turbidity) of the contaminated water, and the water level measuring instrument 95 for measuring the level of the washing water in the washing water reservoir 19. ) Is installed. The pollution level measuring unit 75 and the water level measuring unit 95 are connected to the control unit 50, respectively.

Hereinafter, the operation of the wet air purifying apparatus 10 according to the present invention will be described in detail. First, when the water level measured by the water level meter 95 is lower than the reference water level, the controller 50 opens the supply pipe control valve 65 to receive tap water from the water pipe. The tap water is supplied only by the water pressure in the water pipe, and when the water pressure is low, it is supplied using a separate pump. The water supplied through the tap water supply pipe 66 is supplied to the contaminated water reservoir 17 through the nozzle tube 13. At this time, the contaminated water reservoir 17 is usually empty.

In addition, when the pollution degree measured by the pollution degree meter 75 exceeds the reference value, the controller 50 opens the discharge pipe control valve 45 to discharge the polluted water to the sewage pipe. In this case, the discharge pipe control valve 45 may be opened by the pollution degree measuring device 75 or by a timer 52 embedded in the controller 50. In addition, the discharge pipe control valve 45 may be closed by the water level meter 95 or by a timer 52 built in the control unit 50. That is, the discharge pipe control valve 45 may be opened and closed periodically to discharge the polluted water.

Subsequently, when the air supply fan 6 of the ventilation unit 1 according to the present invention is operated, the controller 50 opens the circulation pipe control valve 65 and operates the water circulation pump 68. Then, the washing water of the washing water reservoir 19 is pumped into the nozzle tube 13. At this time, the discharge pipe control valve 45 and the supply pipe control valve 65 maintains a closed state.

Then, the high pressure washing water pumped into the nozzle tube 13 passes through the nozzle hole 36 and the mesh network to form fine water droplets. The fine droplets form a fine droplet filter membrane 11 in an upper space of the contaminated water reservoir 17. Since the fine droplet filtration membrane 11 is thicker, it is advantageous for air purification, so that the fine droplet filtration membrane 11 is formed as thick as possible within the range not exceeding the contaminated water reservoir 17.

 Therefore, the outdoor air sucked by the air supply fan 6 necessarily passes through the fine droplet filter membrane 11. At this time, the dust or pollutants contained in the outdoor air is adsorbed by contact with the fine water droplets. And contaminants adsorbed in the water droplets descend with the water droplets and are separated from the outside air.

On the other hand, the amount of water corresponding to the washing water discharged from the washing water reservoir 19 is supplied by filtering the contaminated water stored in the polluted water reservoir (17). That is, the screen 42 is installed on the separation wall 14 to be spaced apart from the bottom by a certain height so that the precipitated contaminants do not flow into the washing water reservoir 19. In addition, the separation wall 14 is provided with a floating decanter (not shown) installed to rise according to the level of the contaminated water and the washing water inlet is located below the water so that the floating contaminants are transferred to the washing water reservoir 19. Do not inflow.

As such, the wet air purifier 10 according to the present invention adsorbs and removes contaminants contained in outdoor air by using fine water droplets, such as fine sludge, volatile organic compounds, and odorous substances, which are difficult to remove with a conventional filter. Not only can it remove contaminants, but there is no need to change the filter because no mechanical filters are used. In addition, since the tap water supplied from the tap water is used as the washing water and the contaminated water can be discharged directly through the sewer pipe, the user does not need to open the ceiling and access the ventilation unit. In addition, the present invention is very easy to manage because the tap water and polluted water is automatically supplied and discharged by the timer of the water level meter and pollution meter or control unit. In other words, the present invention can reduce both the cost and effort of the filter replacement.

Meanwhile, as described above, an inlet 22 through which outdoor air is introduced is formed at one side of the case 12, and an outlet 23 through which the purified outdoor air is discharged is formed at the other side of the case 12. . And a dehumidification net 24 is installed in close proximity to the outlet 23 to remove water droplets or water contained in the outdoor air. The dehumidifying net 24 is a filter sieve having a fine mesh and is vertically installed between the upper surface of the case 12 and the bottom surface of the contaminated water reservoir 17. The dehumidification network 14 may be formed of one or two dehumidification networks installed at a predetermined distance apart. In addition, the dehumidification network 24 is preferably installed to be slidable up and down to facilitate installation and replacement.

Therefore, while passing through the fine droplet filter membrane 11, the outdoor air containing water passes through the dehumidification network 24, and the fine droplets are combined with each other to form a large droplet. Then, the separated large water droplets flow down through the dehumidification network 24 to secondarily remove contaminants that could not be removed from the fine droplet filtration membrane 11.

The outdoor air passing through the dehumidification network 24 is supplied to the room through the air supply fan 6 and the external air outlet 34 with appropriate moisture. Therefore, the wet air purifier 10 of the present invention has a side effect of supplying an appropriate amount of moisture to dry indoor air. On the other hand, when the outdoor air containing moisture meets the low-temperature indoor air in the heat exchanger (7), the water is condensed to produce condensed water.

Therefore, the heat exchange film of the heat exchanger 7 should be made of a material resistant to moisture. That is, the heat exchange film of the conventional heat exchanger 7 is usually made of paper. However, when the wet air purifier 10 is installed on the outside air inlet 32 side as in the present invention, the air discharged from the wet air purifier 10 and introduced into the heat exchanger 7 has a large amount of air. Moisture is included. In addition, when the indoor air condition is low, since indoor air passing through the heat exchanger 7 is low, when humid outdoor air flows into the heat exchanger 7, moisture contained in the outdoor air is condensed to produce condensed water. do. This condensate damages the heat exchange membrane made of paper.

In addition, as shown in Figure 7, the lower portion of the heat exchanger 7 is provided with a condensate tray 74 for receiving condensate. That is, when humid outdoor air flows into the heat exchanger 7, a large amount of condensed water is produced. When the condensate is left, it flows into the bottom of the housing 2 and then leaks to the bottom of the ventilation unit 1. As such, the leaked condensate falls into the room through the ceiling causing serious defects.

In view of this, a condensate tray 74 as shown in FIG. 8 is installed at the bottom of the heat exchanger 7. The condensate tray 74 has a box shape in which the front side and the rear side are open, and in particular, the opening 171 corresponding to the inclined surface of the heat exchanger 7 is opened so that all the condensate falling from the heat exchanger 7 flows in the front side. It is. And the rear portion 172 is formed so that the purified outside air discharged from the wet air purifier 10 can be introduced as it is.

The lower part of the condensate tray 74 is sealed to allow the condensate to flow into the wet air purifier 10. The condensate tray 74 has a front inclined wall 173 inclined to be in close contact with the lower side of the heat exchanger 7 to guide the condensate, and a front end to form the opening 171. Both vertical walls 174 which are cut obliquely, the opening 172 is formed, and a rear vertical wall 175 provided with a conveying pipe 180 for sending condensate to the wet air purifier 10, and the front The bottom plate 176 is integrally coupled to the lower end of the inclined wall 173, the both side vertical wall 174 and the rear vertical wall 175, and is integrally coupled to the upper end of the both vertical wall 174 to be purified. It consists of an upper plate 177 for guiding outside air to the heat exchanger (7). Therefore, the condensed water collected in the condensate tray 74 flows into the contaminated water reservoir 17 of the wet air purifier 10.

On the other hand, the wet air purifying apparatus 10 according to the present invention may be a humid indoor air is supplied to the indoor even when the indoor air is humid. In consideration of this point, in the preferred embodiment of the present invention, as shown in FIG. 9, it is preferable to cool the dehumidification network 24 to a temperature below the dew point by using the thermoelectric element 25. The thermoelectric element 25 uses the Peltier effect. When two kinds of metals are connected and a current is sent thereto, one type of metal exhibits an endothermic function and the other metal exhibits a heat dissipation function according to the current direction. It is used.

As shown, the thermoelectric element 25 is installed in the partition wall 4 and the dehumidification network 24 is in contact with the heat absorbing portion 26 of the thermoelectric element. At this time, the dehumidification net 24 is made of a metal material having excellent thermal conductivity. And the heat generating portion of the thermoelectric element 25 is disposed so as to be exposed on the bet exhaust passage 5 through a separate heat sink (27). As such, when the temperature of the dehumidification net 24 is lowered below the dew point by using the thermoelectric element 25, moisture included in outdoor air is condensed and dehumidified when passing through the dehumidification net 25. At this time, the thermoelectric element 25 has a side effect of cooling the outdoor air introduced into the room.

In addition, the thermoelectric element 25 may also be used for the purpose of drying the case 12 of the wet air purifier 10. For example, when the electrode of the power source applied to the thermoelectric element 25 is changed by the control of the controller 50, the dehumidification network 25 comes into contact with the heat generating part, and thus heat is removed from the dehumidification network 25. Emanates. Therefore, when the polluted water reservoir 17 and the washing water reservoir 19 are both empty and dissipate heat through the dehumidification network 24 for a predetermined time, the case 12 may be dried to prevent bacteria from propagating. can do. In addition, even when the outdoor air flowing into the wet air purifier 10 is lowered below the freezing point, the dehumidification network 24 may prevent the washing water from freezing by radiating heat.

As described above, the wet air purifier 10 of the present invention can obtain various excellent effects because it removes contaminants using fine water droplets. However, since the inside of the case 12 is kept in a humid state for a long time, an environment in which bacteria introduced with the outdoor air propagate is created. Therefore, in order to solve this problem, it is preferable to install one or more ultraviolet lamps 29 in the case 12 to kill bacteria or viruses in air or water.

In addition, the inner wall of the case 12 may be a photocatalyst such as titanium oxide (TiO ₂ ), or ZnO, CdS, ZrO ₂ , SnO _2. It is also preferable to improve the sterilization ability by coating a low temperature catalyst composed of a composite metal oxide such as. In addition, the dehumidification net 24 is preferably made of a metal having a sterilizing ability such as copper or made of titanium oxide metal fiber. Accordingly, when the ultraviolet lamp 29 activates the photocatalyst coated on the dehumidification network 24 or the like, clean outdoor air can be supplied by oxidatively decomposing bacteria, harmful substances and odorous substances contained in the outdoor air. On the other hand, the negative ion generating device 30 may be further installed on the inlet 22 side of the case 12.

As described above, the ventilation unit equipped with the wet air purifying device according to the present invention prevents energy waste by exchanging heat between indoor air and outdoor air, and also has excellent ability to remove contaminants in fine water droplets. By removing the contaminants contained in the external or internal air using the supply to the room there is an effect that can prevent the pollution of the indoor air.

In addition, the present invention uses tap water supplied directly from the tap water as the washing water, and water contaminated by air purification is discharged directly to the sewer pipe, thus eliminating cumbersome work such as filter replacement and cleaning, and requiring a professional's help. Because it can reduce the manpower and cost.

In addition, the present invention periodically discharges polluted water and supplies tap water using a sensor and a timer, thereby preventing contamination of outdoor air supplied to the room due to a neglected condition by bacteria, and by using ultraviolet light or a photocatalyst. The effect is to supply clean air by removing volatile organic compounds and odorous substances.

In addition, the present invention has the effect of supplying moisture to the dry indoor air by supplying the room after dehumidifying adequately through the dehumidification network.

Claims (8)

A housing in which the outdoor air supply passage and the internal air exhaust passage are partitioned by a partition wall, an outdoor air supply fan installed on one side of the air supply passage, an internal air exhaust fan provided on one side of the internal air exhaust passage, and the external air supply passage and the internal air exhaust passage A wet type comprising a heat exchanger installed at an intersecting portion and configured to exchange heat between indoor and outdoor air through a heat exchange membrane, and a wet air purifier installed to form a fine droplet filter membrane on the outside air supply passage. In the ventilation unit equipped with an air purifier, The heat exchanger membrane of the heat exchanger is made of a material resistant to moisture, and a condensate tray for receiving condensate generated by humid air passing through a wet air purifier is installed at a lower portion of the heat exchanger, and the condensate tray has a front surface and The rear side is open in the form of a box, the opening corresponding to the inclined surface of the heat exchanger is opened so that all the condensate falling from the heat exchanger in the front, the purified air from the wet air purifier is introduced into the rear as it is Opening is formed so that, the lower portion is a ventilation unit with a wet air purifier, characterized in that the condensed water is sealed to flow into the wet air purifier. The method of claim 1, The condensate tray is inclined in contact with the lower side of the heat exchanger and inclined forward inclined wall to guide the condensate, vertical walls on both sides of which the front end is inclined to form the opening, and the opening is A rear vertical wall formed with a transfer pipe for sending condensate to the wet air purifier, a bottom plate integrally coupled to lower ends of the front inclined walls, both vertical walls, and the rear vertical walls; Ventilation unit with a wet air purifier, characterized in that consisting of a top plate which is integrally coupled to the upper end to guide the purified air to the heat exchanger. The method of claim 1, The wet air purifier includes a case having an inlet and an outlet formed on both sides thereof to seal the lower portion and to allow the outdoor air to pass through to store a predetermined amount of water; A tap water supply pipe connected to the tap water to supply tap water into the case; A contaminated water discharge pipe connected to the sewage pipe so as to discharge the contaminated water stored in the case; A nozzle tube provided to supply tap water into the case and spray fine droplets into the introduced outdoor air to form a fine droplet filter membrane; A water circulation pump installed to continuously circulate the washing water stored in the case through the nozzle tube; And a dehumidification network installed near the outlet of the case and configured to remove moisture contained in the outdoor air purified from the inside of the case. A housing in which the outdoor air supply passage and the internal air exhaust passage are partitioned by a partition wall, an outdoor air supply fan installed on one side of the air supply passage, an internal air exhaust fan provided on one side of the internal air exhaust passage, and the external air supply passage and the internal air exhaust passage A wet type comprising a heat exchanger installed at an intersecting portion and configured to exchange heat between indoor and outdoor air through a heat exchange membrane, and a wet air purifier installed to form a fine droplet filter membrane on the outside air supply passage. In the ventilation unit equipped with an air purifier, The condensate tray installed in the lower portion of the heat exchanger has a front and rear open box shape, inclined front inclined wall to be in close contact with the lower side of the heat exchanger to guide the condensate; Both vertical walls, the front end of which is cut inclined to form an opening in the front; A rear vertical wall formed with a rear opening and provided with a conveying pipe for sending condensate to the wet air purifier; A bottom plate integrally coupled to lower ends of the front inclined walls, both vertical walls, and the rear vertical walls; A top plate which is integrally coupled to the upper ends of both vertical walls and guides the purified outside air to the heat exchanger; The wet air purifying apparatus includes a case in which a lower part is sealed to store the predetermined amount of water and inlets and outlets are formed at both sides to allow outdoor air to pass therethrough; A tap water supply pipe connected to the tap water to supply tap water into the case; A contaminated water discharge pipe connected to the sewage pipe so as to discharge the contaminated water stored in the case; A nozzle tube provided to supply tap water into the case and spray fine droplets into the introduced outdoor air to form a fine droplet filter membrane; A water circulation pump installed to continuously circulate the washing water stored in the case through the nozzle tube; And a dehumidification network installed near the outlet of the case and configured to remove moisture contained in the outdoor air purified from the inside of the case. The method according to claim 3 or 4, The lower part of the case is divided into a contaminated water reservoir and a washing water reservoir through a partition wall having a predetermined height, and the contaminated water discharge pipe for discharging contaminated water is connected to the bottom of the contaminated water reservoir, and the contaminated water discharge pipe is contaminated. A discharge pipe control valve is installed to control the discharge of water, and a washing water circulation pipe for circulating the washing water into the nozzle pipe is connected to the bottom of the washing water reservoir, and the washing water is pumped on the washing water circulation pipe. And a water circulation pump for pumping water, and a circulation pipe control valve for controlling the flow of the washing water. The method according to claim 3 or 4, One end of the tap water supply pipe is provided with the nozzle pipe, the other end is connected to a tap water supply for supplying tap water, a plurality of nozzle holes are drilled on the outer peripheral surface of the nozzle pipe, the tap water supply pipe for controlling the flow of tap water Ventilation unit with a wet air purifier, characterized in that the supply pipe control valve is installed. The method according to claim 3 or 4, The dehumidification network is made of a metal material having excellent thermal conductivity, and a ventilation unit with a wet air purifier, characterized in that it is installed in contact with the thermoelectric element. The method according to claim 3 or 4, Ventilation unit with a wet air purifier, characterized in that one or more ultraviolet lamps are installed inside the case.

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