KR102383783B1 - Energy saving air purification type ventilation system linked with weather information - Google Patents

Abstract

The present invention relates to an energy-saving air purification-type ventilation system linked with weather information, which comprises: a case mainframe (10); an electric heat exchange unit (20) dividing the inside of the case mainframe (10) into a first through fourth accommodation spaces; an indoor air suction unit (30) communicating with the first accommodation space of the case mainframe (10); an outdoor air suction unit (31) communicating with the second accommodation space of the case mainframe (10); an outdoor air discharge unit (32) communicating with the third accommodation space of the case mainframe (10); an indoor air discharge unit (33) communicating with the fourth accommodation space of the case mainframe (10); a suction fan (40) installed in the third accommodation space of the case mainframe (10) to be connected to the outdoor air discharge unit (32); an exhaust fan (50) installed in the fourth accommodation space of the case mainframe (10) to be connected to the indoor air discharge unit (33); filters (60, 61, 62) installed in the accommodation spaces of the case mainframe (10); a UV light source (70) installed in the accommodation spaces of the case mainframe (10) and sterilizing pollutants and the like included in the air; a heat generating body (80) placed in the outdoor air suction unit (31) or the second accommodation space (12); and a control unit (100) controlling the operation of the suction fan (40) and the exhaust fan (50). The present invention aims to provide an energy-saving air purification-type ventilation system linked with weather information, which is capable of improving user convenience.

Description

Energy saving air purification type ventilation system linked with weather information

The present invention relates to an energy-saving air cleaning and clean ventilation system linked with weather information, and more specifically, it is possible to achieve the removal of contaminants contained in the air circulated through an air purification filter provided therein, By linking the weather information, the operation mode of the ventilation system can be controlled according to the predicted degree of contamination of fine dust or yellow dust, so that a comfortable state of indoor air can be continuously maintained, and fine particles can be removed using ultrasonic waves. It can be filtered more effectively by agglomeration, which reduces costs and makes the indoor space more comfortable, prevents condensation caused by cold outside air, and continuously sterilizes the filter to remove bacteria and viruses remaining in the filter, leading to various diseases It relates to an energy-saving air purifying and clean ventilation system linked with weather information that effectively prevents air pollution, facilitates filter replacement, reduces damage to the total heat exchange unit, and extends lifespan through easy maintenance, thereby further reducing maintenance costs.

In general, when a person breathes for a certain period of time or longer in a certain indoor space blocked from outdoor air, the amount of carbon dioxide in the room increases, which interferes with breathing. In addition, toxic substances such as chemicals used in indoor construction materials and harmful substances generated by the use of office equipment such as copiers and printers may cause headaches or fatigue.

Accordingly, it is necessary to ventilate the indoor space, and although the user opens a window to ventilate, a ventilation device is also used. Such a ventilation device allows indoor and outdoor air to pass through a heat exchanger to reduce the temperature difference between outdoor air and indoor air, thereby making the indoor space comfortable. On the other hand, outdoor air contains pollutants such as yellow dust or fine dust, which causes various diseases such as bronchial tubes and lungs.

However, since the conventional ventilation device cannot remove fine dust, etc. introduced from the outside, there is a problem in that various diseases such as the above are caused. On the other hand, although air purifiers are used separately from the ventilation system in recent years, air containing fine dust or microplastics is introduced into the room due to the ventilation operation, and then the air purifier is used to purify the air. Various diseases are caused by fine dust or microplastics, or if the air purifier is used for a long time in a closed room, it can cause a decrease in immunity and diseases of the human body due to various causes such as lack of oxygen in the room and harmful gases. The problem is not solved. Therefore, since the air purifier must be installed separately from the ventilation device, there is a problem in that the cost increases.

Korean Patent Publication No. 10-0651861

The present invention is to solve the problems described above, and an object of the present invention is to enable automatic or manual control of a ventilation mode according to an external environment such as yellow dust, fine dust, and ultrafine dust through a single device, It filters and sterilizes pollutants including micro-particles, bacteria and viruses, and furthermore, it uses ultrasonic waves or low-frequency waves to agglomerate micro-particles so that they can be filtered more effectively as they grow in size. It provides space, prevents condensation caused by temperature difference even when cold outside air is introduced, and sterilizes the filter, the fine particle aggregation part and the entire case with UV rays to effectively eradicate bacteria and viruses, thereby preventing various diseases more effectively. In the indoor air purification mode, the UV light source effectively sterilizes the filter while maintaining and replacing the UV light source more conveniently, improving the usability and allowing outside air to flow into the room without going through the total heat exchange unit. Reduces damage and power loss to total heat exchange unit due to congestion in total heat exchange unit is to provide

According to a feature of the present invention, the housing space (11, 12, 13, 14) is formed therein the case body (10); It is installed inside the case body 10 to divide the accommodating spaces 11, 12, 13, and 14 into first to fourth accommodating spaces 11, 12, 13, and 14, and the first to fourth accommodating spaces a total heat exchange unit 20 installed to allow indoor and outdoor air introduced into the spaces 11, 12, 13, and 14 to pass therethrough; It is formed on one side of the front side of the case body 10 so as to communicate with the first accommodating space 11 of the case body 10 , and the indoor air is introduced into the first accommodating space 11 of the case body 10 . intake port 30; It is formed on one rear side of the case body 10 so as to communicate with the second accommodating space 12 of the case body 10 , and outdoor air is introduced into the second accommodating space 12 of the case body 10 . intake port 31; It is formed on the other front side of the case body 10 so as to communicate with the third accommodating space 13 of the case body 10, flows into the second accommodating space 12, and passes through the total heat exchange unit 20. 3 an outdoor air exhaust port 32 through which the air introduced into the accommodation space 13 is discharged into the room; It is formed on the other rear side of the case body 10 so as to communicate with the fourth accommodating space 14 of the case body 10, flows into the first accommodating space 11 and selectively passes through the total heat exchange unit 20 an indoor air exhaust port 33 through which the indoor air introduced into the fourth accommodating space 14 is discharged to the outdoors; an intake fan 40 installed in the third accommodating space 13 of the case body 10 so as to be connected to the outdoor air exhaust port 32; an exhaust fan (50) installed in the fourth accommodating space (14) of the case body (10) so as to be connected to the indoor air exhaust port (33); Filters 60, 61, installed in the accommodating spaces 11, 12, 13, and 14 of the case body 10 to remove contaminants contained in the air introduced into the accommodating spaces 11, 12, 13, 14 62); Contaminants contained in air installed in the receiving spaces 11, 12, 13, and 14 of the case body 10 and introduced into the receiving spaces 11, 12, 13, 14, and the receiving space of the case body 10 (11, 12, 13, 14) UV light source 70 for sterilizing the inside and the filter (60, 61, 62); External air provided in the outdoor air intake port 31 or the second accommodating space 12 of the case body 10 and sucked into the second accommodating space 12 of the case body 10 by the intake fan 40 a heating element 80 to heat the; and a control unit 100 that receives weather information from the Korea Meteorological Administration wirelessly and controls the operation of the intake fan 40 and the exhaust fan 50 according to the weather information. An air purifying clean ventilation system is provided.

According to another feature of the present invention, the case body 10 has a first opening and closing part 110 for communicating and releasing the communication between the first accommodating space 11 and the second accommodating space 12, and the first accommodating space. (11) and the third accommodating space (13) a second opening/closing part 120 for communicating and releasing the communication, a third opening/closing part 130 for opening and closing the indoor air intake port 30, and the third accommodating space (13) ) and a fourth opening/closing unit 140 for communicating and releasing communication with the total heat exchange unit 20 is further provided, and the first to fourth opening/closing units 110, 120, 130, 140 are operated and controlled by the control unit 100. An energy-saving air purifying clean ventilation system linked with information is provided.

According to another feature of the present invention, the first opening/closing part 110 connects the edge of the total heat exchange unit 20 and the inner wall of the case body 10 to form a first accommodating space 11 and a second accommodating space 12 ) and a first partition plate 111 provided with a first opening 112, and a first opening and closing door 113 for opening and closing the first opening 112 under the control of the control unit 100, and , the second opening and closing part 120 divides the first accommodating space 11 and the third accommodating space 13 by connecting the edge of the total heat exchange unit 20 and the inner wall of the case body 10, and a second opening ( 122) interlocking weather information comprising a second partition plate 121 provided with, and a second opening and closing door 123 for opening and closing the second opening 122 under the control of the control unit 100 An energy-saving air purifying clean ventilation system is provided.

According to another feature of the present invention, the filter 61 is provided in the third accommodating space 13 of the case body 10 and flows through the second opening and closing part 120 into the third accommodating space 13 . Filters the air that is used, and the UV light source 70 is provided between the filter 61 and the second opening and closing part 120 and is controlled to be operated by the control unit 100 when the second opening and closing part 120 is opened. An energy-saving air purifying clean ventilation system linked to the weather information of

According to another feature of the present invention, the heating element 80 is made of a planar heating element, and a heating element installation base 90 for fixing the heating element 80 to the inside of the outdoor air intake 31 is further provided. An energy-saving air purifying clean ventilation system linked with weather information is provided.

According to another feature of the present invention, a fitting groove (31a) is extended along the circumferential direction on the inner surface of the outdoor air intake port (31), and the heating element mounting base (90) has a cylindrical shape with front and rear ends opened. There is provided an energy saving type air cleaning and clean ventilation system linked with weather information, characterized in that a fitting projection 92 to be fitted into the fitting groove 31a of the outdoor air intake 31 is formed at the front end.

According to another feature of the present invention, a vent hole 91 for allowing external air to contact one surface of the heating element 80 is further provided on the circumferential surface of the heating element installation table 90. An energy-saving air purifying clean ventilation system is provided.

As described above, according to the present invention, the total heat exchange unit 20 is provided and the filter 60, 61, 62 and the UV light source 70 are provided inside the case body 10 for exchanging indoor and outdoor air, so that when ventilating, As it effectively blocks and removes contaminants such as fine dust and microplastics, as well as bacteria and viruses contained in the circulated air, it can effectively prevent various diseases while ventilating the indoor air and keep the indoor air cleaner and more pleasant. can At this time, since the UV light source 70 sterilizes the inside of the case body 10 and the filters 60 , 61 , 62 , the remaining bacteria or viruses are effectively removed, and the effect is further increased. In addition, since ventilation can be operated automatically or manually through interlocking with weather information, the above effect can be further increased while improving user convenience.

And since the heating element 80 is provided on one side of the case body 10 through which the outdoor air flows, the outdoor air passes through the total heat exchange unit 20 in a heated state, so the temperature difference with the inside of the total heat exchange unit 20 Condensation is prevented, thereby preventing the total heat exchange unit 20 from being damaged, thereby increasing the lifespan of the total heat exchange unit 20 and reducing maintenance costs.

And the first to fourth opening and closing parts 110, 120, 130, 140 are provided inside the case body 10 so that the divided first to fourth accommodating spaces 11, 12, 13, and 14 are communicated and released as needed, so that the weather Accordingly, the total heat exchange unit 20 is not used unnecessarily by preventing the outdoor air from passing through or not passing through the total heat exchange unit 20, so energy is saved, economical, and the lifespan of the total heat exchange unit 20 can be extended. This is further reduced. In addition, since air is prevented from being stagnant by the total heat exchange unit 20 , the static pressure according to the driving of the exhaust fan 50 is lowered, thereby reducing noise.

And the filter 61 filters the indoor or outdoor air flowing in through the second opening/closing unit 120, and the UV light source 70 is configured to sterilize the filter 61 when the second opening/closing unit 120 is opened, Since the UV light source 70 is prevented from being operated unnecessarily, energy can be further saved and the filter 61 can be effectively sterilized, so that the indoor air can be maintained more pleasantly.

And, since the heating element 80 is made of a planar heating element and can be easily installed in the external air intake 31 of the case body 10 by the heating element mounting base 90, indoor air is introduced through the external air intake 31 It is directly heated to minimize heat loss and prevent the above-mentioned dew condensation.

And the fitting groove (31a) is formed in the circumferential direction in the external air intake port (31) of the case body (10) and the heating element mounting base (90) is made of a cylindrical shape with front and rear ends opened so that the heating element (80) is accommodated therein. Since the fitting protrusion 92 fitted into the fitting groove 31a is provided at the front end, the heating element mounting base 90 can be easily installed in the external air intake port 31 . At this time, the ventilation hole 91 is formed on the circumferential surface of the heating element installation table 90 so that the heating element 80 is in contact with the air quickly and easily, so that the heating element 80 is prevented from being overheated, so safety accidents such as short circuit due to overheating is prevented

On the other hand, by aggregating fine particles such as fine dust or microplastics contained in the circulating air using ultrasonic waves or low frequency in the fine particle aggregation unit 150 before passing through the filter 60, the size of the fine particles increases and the filter Since it is more effectively filtered in (60), the filtration efficiency is increased to prevent diseases more effectively and to keep indoor air more pleasant. Even without using an expensive filter, such as a HEPA filter for filtering fine particles, it is possible to effectively remove the fine particles, thereby effectively reducing the cost.

1 is a view showing an embodiment of an energy-saving air purifying clean ventilation system linked with weather information according to the present invention;
2 is an enlarged view of the embodiment;
3 is a bottom perspective view of the embodiment;
4 is a view showing the heating element of the embodiment;
5 is a view showing a normal operation mode of the embodiment;
6 is a view showing a bipad mode of the embodiment;
7 is a view showing an indoor air purification mode of the embodiment;
8 is a view showing the UV light source of the embodiment in detail;

The objects, features and advantages of the present invention described above will become more apparent through the following detailed description. Hereinafter, preferred embodiments of the present invention will be described based on the accompanying drawings.

1 to 8 are diagrams illustrating an energy-saving air cleaning and clean ventilation system linked with weather information according to an embodiment of the present invention. As shown, the indoor air ventilation system according to an embodiment of the present invention includes a case body 10 , a total heat exchange unit 20 , an indoor air intake port 30 , an outdoor air intake port 31 , and an outdoor air exhaust port 32 . ), an indoor air exhaust port 33 , an intake fan 40 , an exhaust fan 50 , a filter 60 , a UV light source 70 , a heating element 80 , and a control unit 100 .

The case body 10 has accommodating spaces 11, 12, 13, and 14 for accommodating the total heat exchange unit 20, the intake fan 40, the exhaust fan 50, and the like are formed therein. As shown in FIG. 2, the case body 10 may have a rectangular flat cross-section, and is provided on one surface at a position aligned with the filters 60, 61 and 62 to expose the filters 60, 61 and 62 to the outside. Openings 15, 16, and 17 may be formed, and a cover 18 to cover the openings 15, 16, and 17 may be further provided. Accordingly, since the filters 60,61,62 can be easily withdrawn and accommodated through the openings 15,16,17 simply by opening the cover 18, the filters 60,61,62 can be exchanged. This has the advantage of being easy.

The total heat exchange unit 20 is to allow heat exchange between indoor and outdoor air cross-circulated with each other, and is installed inside the case body 10 to accommodate the housing spaces 11, 12, 13, and 14 of the case body 10. is divided into first to fourth accommodating spaces 11, 12, 13, and 14. As shown in FIG. 2, the first and fourth accommodating spaces 11 and 14 are diagonally opposed to each other around the total heat exchange unit 20, and the second and third accommodating spaces 12 and 13 are diagonally opposed to each other. partitioned as much as possible. In this case, a normal partition plate 19 for partitioning may be provided at the corner or vertex of the total heat exchange unit 20 .

Such a total heat exchange unit 20 is adhesive by stacking single-sided corrugated cardboard made of adhesion of a corrugated core and an original cardboard alternately at an angle of 90 ° as well known, and may be made of a synthetic resin or paper material.

The indoor air intake 30 is formed on one front side of the case body 10 so as to communicate with the first accommodating space 11 of the case body 10 as shown in FIG. 2 . Indoor air is introduced into the first accommodating space 11 of the case body 10 through the indoor air intake port 30 .

The outdoor air intake 31 is formed on one rear side of the case body 10 so as to communicate with the second accommodating space 12 of the case body 10 as shown in FIG. 2 . Outdoor air is introduced into the second accommodating space 12 of the case body 10 through the outdoor air intake port 31 .

The outdoor air exhaust port 32 is formed on the other front side of the case body 10 so as to communicate with the third accommodating space 13 of the case body 10 as shown in FIG. 2 . The air flowing into the second accommodating space 12 of the case body 10 through the outdoor air intake 32 and passing through the total heat exchange unit 20 into the third accommodating space 13 is discharged through the outdoor air exhaust port 32 ) is discharged into the room.

The indoor air exhaust port 33 is formed on the other rear side of the case body 10 so as to communicate with the fourth accommodating space 14 of the case body 10 as shown in FIG. 2 . The air introduced into the first accommodating space 11 of the case body 10 through the indoor air intake 30 and selectively passed through the total heat exchange unit 20 into the fourth accommodating space 14 enters the indoor air exhaust port. It is discharged to the outside through (33).

Meanwhile, although not shown, a damper for opening and closing the outdoor air intake 31 and the indoor air exhaust 33 facing the outdoors may be further provided. As is well known, the damper may be formed in various forms for opening and closing the outdoor air intake 31 and the indoor air exhaust port 33 by a motor (not shown) controlled by the controller 100 .

The intake fan 40 is installed in the third accommodating space 13 of the case body 10 so as to be connected to the outdoor air exhaust port 32, and the outdoor air is supplied to the case body 10 through the outdoor air intake port 31. 2 It is sucked into the accommodating space (12), passes through the air purification filter (60) and the total heat exchange unit (20), and is supplied into the room through the outdoor air exhaust port (32).

The exhaust fan 50 is installed in the fourth accommodating space 14 of the case body 10 so as to be connected to the indoor air exhaust port 33 , and the indoor air is supplied to the inside of the case body 10 through the indoor air intake port 30 . It is sucked into the air and passed through the total heat exchange unit (20), and then discharged to the outside through the indoor air outlet (33).

The filters 60, 61 and 62 are for removing contaminants such as fine dust contained in the air flowing into the receiving spaces 11, 12, 13, and 14 of the case body 10, as shown in FIG. It may be located on a passage through which external air or indoor air is moved. Although not shown, the filters 60 , 61 , and 62 are respectively detachably coupled to the upper and lower surfaces of the intake fan 40 to more effectively remove contaminants contained in the air flowing into the room.

In the energy-saving air purifying clean ventilation system linked with weather information according to an embodiment of the present invention, the filters 60, 61 and 62 include the first filter 60, the second filter 61 and the third filter 62. ) can be done. The first filter (60) is provided on a passage through which the external air introduced into the second accommodation space (12) through the outdoor air intake port (31) is introduced into the total heat exchange unit (20). The second filter 61 may be provided on a passage through which the indoor or outdoor air moves without passing through the total heat exchange unit 20 through a bypass mode and an indoor air purification mode, which will be described later, as shown in FIGS. 6 and 7 . It may be provided in the third accommodating space 13 to filter the air introduced through the second opening and closing part 120 to be described later. The third filter 62 is provided on a passage through which the indoor air introduced into the first accommodating space 11 through the indoor air intake port 30 passes through the total heat exchange unit 20 .

Meanwhile, for the first to third filters 60 , 61 , and 62 , several types of filters may be used together. For example, the first filter 60 may be a pre-filter for filtering particles having a relatively large diameter, a dust collecting filter for filtering particles having a relatively small diameter, and a deodorizing filter for removing odors. As for the second filter 61, a dust collecting filter and a deodorizing filter may be used together, and for the third filter 62, only a pre-filter may be used.

The UV light source 70 is installed in the accommodating spaces 11, 12, 13, 14 of the case body 10 and contains contaminants contained in the air supplied to the accommodating spaces 11, 12, 13, and 14 and the case body. Sterilize the inside of (10) and the filter (60). It is preferable to use UV-C in the wavelength range of 100 to 280 nm, which has excellent sterilization effect as the UV light source 70 . By irradiating such UV-C light, it is possible to effectively eradicate bacteria or viruses proliferating in the filter (60, 61, 62) of the case body (10), the case body (10), the filters (60, 61). ,62) maintains a cleaner state, and the air cleaning effect is further improved. On the other hand, the UV light source 70 only sterilizes the second filter 61 , but may be installed in each to sterilize all of the first to third filters 60 , 61 , 62 .

The heating element 80 is provided in the second accommodating space 12 of the case body 10 or inside the outdoor air intake 31 through which the outside air flows, and heats the incoming outside air. The external air heated by the heating element 80 flows into the total heat exchange unit 20, and the heated air introduced into the total heat exchange unit 20 more efficiently heats up the indoor air through heat exchange with an appropriate temperature suitable for the temperature of the indoor space. It is prevented that the inside of the total heat exchange unit 20 where the cold outside air and the relatively warm indoor air meet while raising the temperature to the dew point temperature that causes condensation is prevented, so that the condensation phenomenon occurs in the total heat exchange unit 20 is prevented

On the other hand, the heating element 80 may be installed by the heating element installation table 90, there is no limitation in the shape of the heating element installation table (90). In addition, the heating element 80 may be formed in various forms such as a PTC heater or a planar heating element, and may be installed in the second accommodating space 12 or the outdoor air intake 31 of the case body 10 in various ways.

In the energy-saving air purifying clean ventilation system interlocked with weather information according to an embodiment of the present invention, the heating element 80 may be made of a planar heating element. In such a heating element 80, when an external power is supplied, a heating wire that acts as a heating element is provided inside a thin film of a jig material, and an external power is supplied to the heating wire to generate heat while raising the temperature to a temperature for heating the air. It can be made of a planar heating film, and can be freely bent.

In the energy saving type air cleaning clean ventilation system linked with weather information according to an embodiment of the present invention, the heating element installation table 90 is formed in a cylindrical shape with front and rear ends open, so that the outdoor air intake port 31 of the case body 10 is installed. can be mounted In this case, a fitting groove 31a may be formed along the circumferential direction on the inner circumferential surface of the outdoor air intake 31 of the case body 10 . In addition, a fitting protrusion 92 to be fitted into the fitting groove 31a of the outdoor air intake 31 may be formed at the front end of the heating element installation table 90 . Accordingly, it is possible to easily assemble the heating element mounting table 90 to the outdoor air intake port 31 . And the heating element 80 may be accommodated in a rolled state inside the heating element mounting base 90, it may be accommodated in an approximately S-shape.

In the energy saving type air cleaning clean ventilation system interlocked with meteorological information according to an embodiment of the present invention, vent holes 91 may be further formed on the circumferential surface of the heating element installation table 90 . Accordingly, the heating element 80 can be in contact with the air more quickly and over a larger area, thereby preventing overheating.

As shown in FIG. 1 , the controller 100 may control the operation of the intake fan 40 and the exhaust fan 50 according to the weather information provided from the Korea Meteorological Administration. The control unit 100 is installed in the case body 10 so that the weather information of the Korea Meteorological Administration can be wirelessly provided through the router 3 . The weather information is updated at regular intervals to keep the latest information, and the controller 100 is equipped with a normal Wi-Fi module to receive the weather information wirelessly through the indoor router 3 .

Meanwhile, the intake fan 40 and the exhaust fan 50 are not only automatically controlled by the controller 100 according to the updated weather information, but also manually controlled through an app such as the mobile phone 1 or a program on the computer 2 . It is desirable to be configured to be able to do so. In this case, the user can check the weather information through the mobile phone 1 or the computer 2 and at the same time monitor the ventilation state of the room, so that an appropriate control can be performed from the outside according to the situation.

The energy-saving air purifying clean ventilation system linked with weather information according to an embodiment of the present invention configured as described above receives weather information as shown in FIG. 5 in the normal operation mode and heat exchanges indoor and outdoor air through the total heat exchange unit 20 As this is done, it is moved and ventilated. In this process, indoor and outdoor air is ventilated with filtering, UV sterilization and heat exchange. Accordingly, pollutants such as fine dust and bacteria and viruses contained in the circulated air are filtered, sterilized and removed, so that while preventing various diseases, cleaner air is continuously introduced to provide a more comfortable indoor space. can

The energy-saving air purifying clean ventilation system linked with weather information according to an embodiment of the present invention may further include a bypass mode and an indoor air purifying mode. The bypass mode operates so that outdoor air flows into the room without going through the total heat exchange unit 20 when the temperature difference between indoor and outdoor air is not large as in spring and autumn. It works to purify only the air. Hereinafter, configurations for the bipad mode and the indoor air purification mode will be described.

The energy saving type air cleaning and clean ventilation system linked with weather information according to an embodiment of the present invention may further include first to fourth opening and closing parts 110 , 120 , 130 , 140 in the case body 10 . The first opening and closing part 110 communicates and disconnects the first accommodating space 11 and the second accommodating space 12 , and the second opening and closing part 120 includes the first accommodating space 11 and the third accommodating space 13 . ), the third opening/closing unit 130 opens and closing the indoor air intake port 30, and the fourth opening/closing unit 140 communicates with the third accommodating space 13 and the total heat exchange unit 20 and disengage And the first to fourth opening/closing units 110 , 120 , 130 , 140 are operated and controlled by the control unit 100 .

As shown in Figure 2, the first opening/closing unit 110 divides the first and second accommodating spaces 11 and 12 by connecting the corner of the total heat exchange unit 20 and the inner wall of the case body 10, and the first opening ( A first partition plate 111 having a 112 , and a first opening/closing door 113 for opening and closing the first opening 112 of the first partition plate 111 may be included.

And the second opening and closing part 120 divides the first and third accommodating spaces 11 and 13 by connecting the edge of the total heat exchange unit 20 and the inner wall of the case body 10, and a second opening 122 is provided. and a second partition plate 121 and a second opening/closing door 123 for opening and closing the second opening 122 of the second partition plate 121 . Meanwhile, the UV light source 70 may be installed on the second partition plate 121 by an installation stand 71 .

The third opening/closing part 130 covers the indoor air intake port 30 and includes a third partition plate 131 having a third opening part 132, and a third opening part 132 of the third partition plate 131. It may be made of a third opening and closing door 133 for opening and closing.

And the fourth opening and closing portion 140 divides the third accommodating space 13 and the total heat exchange unit 20 of the case body 10 and includes a fourth partition plate 141 having a fourth opening 142, and the A fourth opening and closing door 143 for opening and closing the fourth opening 142 of the fourth partition plate 141 may be formed.

Meanwhile, the first to fourth opening and closing doors 113 , 123 , 133 , and 143 may be opened and closed by a motor (not shown) that is operated and controlled by the controller 100 .

The bypass mode of the energy-saving air purifying clean ventilation system linked with weather information according to an embodiment of the present invention configured as described above is the first and second openings of the first and second openings 110 and 120 as shown in FIG. 6 . By opening the 112 and 122 and closing the third and fourth openings 132 and 142 of the third and fourth opening and closing parts 130 and 140, the outdoor air introduced through the outdoor air intake port 31 by the intake fan 40 is heat-transferred. It passes through the first and second opening and closing parts 110 and 120 without going through the exchange unit 20 and is discharged into the room through the outdoor air exhaust port 32 . Accordingly, power loss is prevented as the outdoor air passes through the total heat exchange unit 20 .

And, in the indoor air purification mode for purifying indoor air, only the second opening 122 of the second opening and closing part 120 is opened as shown in FIG. 7 , and the first opening and closing part 110 , the third opening and closing part 130 and the fourth opening and closing part are opened By closing the 140, the indoor air flows into the first accommodating space 11 through the indoor air intake 30 by the intake fan 40 and passes through the second opening and closing part 120 to close the outdoor air exhaust port 32. discharged into the room through At this time, as the indoor air passes through the second filter 61 as shown in FIG. 8 , pollutants are filtered out, so that the indoor air is purified. In this way, since the indoor air is discharged to the outside without going through the total heat exchange unit 20, energy costs are reduced and damage to the total heat exchange unit 20 is reduced and the lifespan is extended. It is easy and the cost is reduced, and the static pressure according to the driving of the exhaust fan 50 is lowered, thereby reducing noise.

Meanwhile, as shown in FIG. 8 , when the second opening 122 of the second opening/closing unit 120 is opened in the bypass mode or the indoor air purification mode so that indoor or outdoor air passes through the second opening/closing unit 120, the UV light source 70 sterilizes the second filter 61 . Accordingly, since the UV light source 70 does not normally operate and sterilizes only when the second filter 61 filters, energy is saved and the lifetime of the UV light source 70 is extended, thereby reducing costs. The UV light source 70 is preferably controlled to be closed again after the second opening and closing part 120 is opened and operated for a predetermined time.

The energy-saving air purifying clean ventilation system linked with weather information according to an embodiment of the present invention may further include a fine particle aggregation unit 150 . The fine particle aggregation part 150 may be provided in the first accommodating space 11 or the second accommodating space 12 of the case body 10, and the indoor air intake port 30 or the outdoor air intake port 31 is provided. The first filter is introduced into the first accommodating space 11 or the second accommodating space 12 of the case body 10 through the first filter 60 to aggregate fine particles such as fine dust contained in the air before passing through the first filter. (60) allows more effective filtration. Such a fine particle aggregation unit 150 may be configured to agglomerate the fine particles by generating ultrasonic waves or low frequency, as is well known.

As shown in FIG. 2 , the fine particle aggregation unit 150 is illustrated as being installed in the second accommodating space 12 of the case body 10 , but may be installed in the first accommodating space 11 . Accordingly, fine particles such as fine dust or microplastics contained in the outdoor air introduced through the outdoor air intake port 31 are aggregated by ultrasonic waves or low frequency generated by the fine particle aggregation unit 150 to increase in size. , is filtered more effectively in the first filter 61 located in the second accommodating space 12 of the case body 10 . That is, the fine particle aggregation unit 150 is located in front of the first filter 61 and agglomerates the fine particles contained in the external air before the air introduced from the outside passes through the first filter 61 to increase the size. , allowing the first filter 61 to filter more effectively.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the technical field to which the present invention pertains that various substitutions, modifications and changes can be made within the scope without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

10: case body 11,12,13,14: accommodating space
15,16,17: opening 18: cover
20: total heat exchange unit 30: indoor air intake
31: outdoor air intake port 32: outdoor air exhaust port
33: indoor air exhaust port 40: intake fan
50: exhaust fan 60,61,62: filter
70: UV light source 80: heating element
90: heating element installation stand 100: control unit
110: first opening and closing part 120: second opening and closing part
130: third opening/closing unit 140: fourth opening/closing unit
150: fine particle aggregation part

Claims (7)

a case body 10 having accommodation spaces 11, 12, 13, and 14 formed therein;
It is installed inside the case body 10 to divide the accommodating spaces 11, 12, 13 and 14 into first to fourth accommodating spaces 11, 12, 13, and 14, and the first to fourth accommodating spaces a total heat exchange unit 20 installed so that indoor and outdoor air introduced into the spaces 11, 12, 13, and 14 passes;
It is formed on one front side of the case body 10 so as to communicate with the first accommodating space 11 of the case body 10 , and the indoor air is introduced into the first accommodating space 11 of the case body 10 . intake port 30;
It is formed on one rear side of the case body 10 so as to communicate with the second accommodating space 12 of the case body 10 , and outdoor air is introduced into the second accommodating space 12 of the case body 10 . intake port 31;
It is formed on the other front side of the case body 10 so as to communicate with the third accommodating space 13 of the case body 10, flows into the second accommodating space 12, and passes through the total heat exchange unit 20. 3 an outdoor air exhaust port 32 through which the air introduced into the accommodation space 13 is discharged into the room;
It is formed on the other rear side of the case body 10 so as to communicate with the fourth accommodating space 14 of the case body 10, flows into the first accommodating space 11 and selectively passes through the total heat exchange unit 20 an indoor air exhaust port 33 through which the indoor air introduced into the fourth accommodating space 14 is discharged to the outdoors;
an intake fan 40 installed in the third accommodating space 13 of the case body 10 so as to be connected to the outdoor air exhaust port 32;
an exhaust fan (50) installed in the fourth accommodating space (14) of the case body (10) so as to be connected to the indoor air exhaust port (33);
Filters 60, 61, installed in the accommodating spaces 11, 12, 13, 14 of the case body 10 to remove contaminants contained in the air introduced into the accommodating spaces 11, 12, 13, 14 62);
Contaminants contained in the air installed in the receiving spaces 11, 12, 13, and 14 of the case body 10 and introduced into the receiving spaces 11, 12, 13, 14, and the receiving space of the case body 10 (11, 12, 13, 14) UV light source 70 for sterilizing the inside and the filter (60, 61, 62);
External air provided in the outdoor air intake port 31 or the second accommodating space 12 of the case body 10 and sucked into the second accommodating space 12 of the case body 10 by the intake fan 40 a heating element 80 to heat the; and
Energy-saving air linked with meteorological information, characterized in that it includes; Clean clean ventilation system. According to claim 1, wherein the case body (10), the first accommodating space (11) and the second accommodating space (12) a first opening and closing portion for communicating and releasing communication, and the first accommodating space (11) ) and a second opening/closing part 120 for communicating and releasing communication with the third accommodating space 13, a third opening/closing part 130 for opening and closing the indoor air intake 30, and the third accommodating space 13 and A fourth opening/closing unit 140 for communicating and disconnecting the total heat exchange unit 20 is further provided, and the first to fourth opening/closing units 110, 120, 130, 140 are operated and controlled by the control unit 100. Weather information, characterized in that An energy-saving air purifying clean ventilation system in conjunction. According to claim 2, wherein the first opening and closing unit (110) divides the first accommodating space (11) and the second accommodating space (12) by connecting the edge of the total heat exchange unit (20) and the inner wall of the case body (10) and a first partition plate 111 having a first opening 112, and a first opening and closing door 113 for opening and closing the first opening 112 under the control of the control unit 100,
The second opening/closing part 120 divides the first accommodating space 11 and the third accommodating space 13 by connecting the edge of the total heat exchange unit 20 and the inner wall of the case body 10, and a second opening 122 ) provided with a second partition plate 121, and a second opening and closing door 123 for opening and closing the second opening 122 under the control of the control unit 100. Energy-saving air purifying clean ventilation system. According to claim 2 or 3, wherein the filter (61) is provided in the third accommodating space (13) of the case body (10) passes through the second opening and closing portion (120) into the third accommodating space (13) Filters the incoming air, the UV light source 70 is provided between the filter 61 and the second opening and closing part 120, when the second opening and closing part 120 is opened, it is controlled to be operated by the control unit 100 An energy-saving air purifying clean ventilation system linked with weather information. According to any one of claims 1 to 3, wherein the heating element (80) is made of a planar heating element, the heating element (80) to fix the heating element (80) to the inside of the outdoor air intake (31) is further provided An energy-saving air purifying clean ventilation system linked with weather information, characterized in that it is equipped. The method according to claim 5, wherein a fitting groove (31a) extends in a circumferential direction on the inner surface of the outdoor air intake port (31),
The heating element installation base 90 has a cylindrical shape with front and rear ends opened, and a fitting projection 92 fitted into the fitting groove 31a of the outdoor air intake 31 is formed at the front end. An energy-saving air purifying clean ventilation system in conjunction. [Claim 6] The energy-saving type linked to weather information according to claim 5, wherein a vent hole 91 for allowing external air to come into contact with one surface of the heating element 80 is further provided on the circumferential surface of the heating element installation table 90. Air purification clean ventilation system.

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