KR102259153B1 - Hybrid air circulator - Google Patents

Abstract

Provided is a hybrid air circulator comprising: an air conditioning case having a total heat exchange element therein and having an indoor exhaust chamber, an outdoor air supply chamber, an outdoor exhaust chamber, and an indoor air supply chamber; a heat pipe including an indoor heat exchange unit and an outdoor heat exchange unit, therein the indoor heat exchange unit and the outdoor heat exchange unit are connected to each other to exchange heat; and a damping case in which an indoor exhaust damping chamber, an outdoor supply air damping chamber, an outdoor exhaust damping chamber, and an indoor supply air damping chamber are formed. According to the present invention, primary heat exchange through the heat pipe and secondary heat exchange through the total heat exchange element are simultaneously performed between indoor air and outdoor air, so that heat recovery efficiency can be significantly increased.

Description

Hybrid air circulator {HYBRID AIR CIRCULATOR}

The following embodiments relate to a hybrid air circulator.

In a conventional air circulator using a total heat exchange element, two flow paths through which indoor air flows into the element and is discharged to the outside, and where outdoor air flows into the structure and discharged into the room intersect each other, so that the indoor air and the outdoor It is formed so that heat exchange is made between the air. As heat exchange is performed between each layer of the total heat exchange element, heat loss due to the exhaust of the indoor air and the inflow of the outdoor air is reduced.

Such a conventional air circulator enables heat exchange between indoor air and outdoor air, but there is a problem in that it is difficult to change a flow path due to a difference in temperature between indoors and outdoors and air quality. When heat exchange is performed while circulating air, when unfavorable conditions for heat exchange occur or inefficiency is caused in terms of air quality, complicated air inflow and outflow blocking means and control means are required to adjust them. As such additional equipment is applied to the air circulator, the size of the overall structure is enlarged and the structure is complicated, so there is also a problem in that the cost and time required for maintenance and repair are increased.

Therefore, there is a need for an air circulator having a simple structure, which can change and adjust an air flow path, increase heat exchange efficiency, and have excellent controllability.

Korean Patent Publication No. 10-1263164

SUMMARY OF THE INVENTION The present invention is to solve the above problems, and includes an air conditioning case having a total heat exchange element therein, in which an indoor exhaust chamber, an outdoor air supply chamber, an outdoor exhaust chamber and an indoor air supply chamber are formed, an indoor heat exchange unit, and A damping case comprising: a heat pipe having an outdoor heat exchange unit, the indoor heat exchanging unit and the outdoor heat exchanging unit being connected to each other so as to exchange heat; and an indoor exhaust damping chamber, an outdoor air supply damping chamber, an outdoor exhaust damping chamber, and an indoor air supply damping chamber. An object of the present invention is to provide a hybrid air circulator comprising a.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In a hybrid air circulator according to an embodiment of the present invention for solving the above problems, a total heat exchange element is provided therein, an indoor exhaust chamber into which indoor air is introduced through an indoor exhaust nozzle, and an outdoor air through an outdoor air supply nozzle An outdoor air supply chamber to be introduced, an outdoor exhaust chamber through which air in the indoor exhaust chamber is discharged through the total heat exchange element, and an indoor air supply chamber through which air in the outdoor air supply chamber is discharged through the total heat exchange element is formed. air conditioning case; an indoor heat exchange unit disposed in the indoor exhaust chamber to exchange heat with air input to the total heat exchange element, and an outdoor heat exchange unit disposed in the outdoor air supply chamber to exchange heat with air input to the total heat exchange element; a heat pipe connected to the indoor heat exchange unit and the outdoor heat exchange unit so as to be able to exchange heat with each other and fixed between a support for fixing the total heat exchange element and a wall of the air conditioning case; and an indoor exhaust damping chamber in which air is introduced from the outdoor exhaust chamber through a blower for indoor air, and an outdoor air damping chamber in which air is introduced from the indoor air supply chamber through a blower for outdoor air, the indoor exhaust damping chamber and the an outdoor exhaust damping chamber in which air is introduced from one of the outdoor air supply damping chambers and air is discharged to the outdoors through an outdoor exhaust nozzle, and air is introduced from one of the indoor exhaust damping chamber and the outdoor air supply damping chamber, and the indoor air supply nozzle is installed and a damping case in which an indoor air supply damping chamber for discharging air into the room through the damping chamber is formed.

According to an embodiment of the present invention, by opening and closing an outdoor exhaust electric damper for ventilation provided between the indoor exhaust damping chamber and the outdoor exhaust damping chamber disposed vertically adjacent to each other, the indoor exhaust damping chamber is removed from the outdoor Air flows or blocks into the exhaust damping chamber, and from the outdoor supply air damping chamber by opening and closing of the indoor supply air damper for ventilation provided between the indoor supply air damping chamber and the outdoor air supply damping chamber disposed adjacent to each other. The indoor exhaust damping chamber by opening and closing of the indoor air supply damper for purification provided between the indoor exhaust damping chamber and the indoor air supply damping chamber arranged laterally adjacent to the indoor air supply damping chamber from flowing or blocking air to the indoor air supply damping chamber. Air flows or is blocked from the to the indoor air supply damping chamber, and the outdoor air supply damping chamber by opening and closing the outdoor exhaust electric damper for purification provided between the outdoor air supply damping chamber and the outdoor exhaust damping chamber disposed adjacent to each other. Air flows or is blocked from the chamber to the outdoor exhaust damping chamber, the outdoor exhaust electric damper for ventilation and the indoor air supply electric damper for ventilation are opened, respectively, and the indoor supply air damper for purification and the outdoor exhaust electric damper for purification are closed, respectively In the indoor ventilation operation mode, the air introduced into each of the indoor exhaust nozzle and the outdoor air supply nozzle is discharged to the outdoor exhaust nozzle and the indoor air supply nozzle, respectively, and the outdoor exhaust electric damper for ventilation and the indoor air supply for ventilation are electrically operated. In the first indoor air purification operation mode in which the damper and the outdoor exhaust electric damper for purification are respectively closed and the indoor air supply electric damper for purification is opened, the air introduced into the indoor exhaust nozzle is discharged to the indoor air supply nozzle, and the outdoor air for ventilation A second indoor air purification operation mode in which the exhaust electric damper and the indoor air supply electric damper for ventilation are closed, respectively, and the indoor air supply electric damper for purification and the outdoor exhaust electric damper for purification are opened, respectively The air introduced into each of the indoor exhaust nozzle and the outdoor air supply nozzle may be discharged to the indoor air supply nozzle and the outdoor exhaust nozzle, respectively.

According to an embodiment of the present invention, the total heat exchange element includes a pre-filter and a dust collecting filter on a side facing the indoor exhaust chamber, a pre-filter on a side facing the outdoor air supply chamber, and the indoor exhaust damping chamber is provided with a HEPA filter between the outdoor exhaust electric damper for ventilation and the electric damper for indoor air supply for purification, and the indoor supply air damping chamber is provided with a UV sterilizer between the electric damper for indoor supply for purification and the electric damper for indoor supply for ventilation. can

According to the present invention, primary heat exchange through a heat pipe and secondary heat exchange through a total heat exchange element are simultaneously performed between indoor air and outdoor air, so that heat recovery efficiency can be greatly increased, and each of the indoor exhaust damping chamber and indoor air The supply air damping chamber, the outdoor exhaust damping chamber and the outdoor air supply damping chamber are arranged adjacent to each other in the upper and lower parts of the indoor side and the upper and lower parts of the outdoor side, so that it is possible to control the air distribution in a minimum space, and the indoor air and outdoor air in the indoor ventilation operation mode As all of the air flows in, primary heat exchange is performed through the heat pipe and secondary heat exchange is performed through the total heat exchange element, so indoor ventilation is possible while reducing indoor heating and cooling energy consumption under significantly improved heat exchange efficiency, and the first indoor air When the outdoor air quality is poor through the purification operation mode and the second indoor air purification operation mode, the indoor air is purified by collecting fine dust in the indoor air through a HEPA filter and sterilizing it through a UV sterilizer, and optionally outdoor air according to the need for heating and cooling Energy efficiency can be further improved as it can be introduced or blocked.

However, the effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the following description.

1 is a cross-sectional view of a hybrid air circulator according to an embodiment of the present invention.
FIG. 2 is a cross-sectional view taken along line AA of the hybrid air circulator of FIG. 1 .
3 is a cross-sectional view taken along line BB of the hybrid air circulator of FIG. 1 .
4 and 5 are schematic cross-sectional views illustrating the flow of indoor air and outdoor air in an indoor ventilation operation mode.
6 and 7 are schematic cross-sectional views illustrating the flow of indoor air in the first indoor air purification operation mode when outdoor air is cut off.
8 and 9 are schematic cross-sectional views illustrating the flow of indoor air and outdoor air in the second indoor air purification operation mode during outdoor air circulation.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms different from each other, and only these embodiments make the disclosure of the present invention complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to the possessor, and the invention is only defined by the scope of the claims.

In the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs. have meaning Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the embodiment of the present invention, an ideal or excessively formal meaning is not interpreted as

The shapes, sizes, ratios, angles, numbers, etc. disclosed in the drawings for explaining the embodiments of the present invention are exemplary, and thus the present invention is not limited to the illustrated matters. In addition, in describing the present invention, when it is determined that a detailed description of related known technologies may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. When 'including', 'having', 'consisting', etc. mentioned in this specification are used, other parts may be added unless 'only' is used. In the case of expressing the constituent elements in the singular, it includes the case of including the plural unless specifically stated otherwise.

In interpreting the constituent elements, it is interpreted as including an error range even if there is no explicit description.

In the case of a description of the positional relationship, for example, if the positional relationship of two parts is described as'upper','upper of','lower of','next to','right' Or, unless'direct' is used, one or more other parts may be located between the two parts.

Reference to an element or layer “on” another element or layer includes any intervening layer or other element directly on or in the middle of another element. The same reference numerals refer to the same elements throughout the specification.

The size and thickness of each component shown in the drawings are illustrated for convenience of description, and the present invention is not necessarily limited to the size and thickness of the illustrated component.

Each of the features of the various embodiments of the present invention may be partially or entirely combined or combined with each other, and as those skilled in the art can fully understand, technically various interlocking and driving are possible, and each of the embodiments may be implemented independently of each other It may be possible to do it together in a related relationship

Hereinafter, a hybrid air circulator according to the present invention will be described with reference to the accompanying drawings.

1 to 9 , the hybrid air circulator 10 according to an embodiment of the present invention includes an air conditioning case 100 , a heat pipe 200 , a total heat exchange element 300 , and a damping case 400 . ) is included.

The air conditioning case 100 includes an indoor exhaust chamber 101 , an indoor air supply chamber 102 , an outdoor air supply chamber 103 , and an outdoor exhaust chamber 104 . The air conditioning case 100 is disposed between the indoor exhaust chamber 101 , the indoor air supply chamber 102 , the outdoor air supply chamber 103 , and the outdoor exhaust chamber 104 which are disposed in all directions, and the four sides have each of the chambers 101 and 102 . , 103, 104 is provided with a total heat exchange element 300 therein. Indoor air flows into the indoor exhaust chamber 101 from the indoor space through the indoor exhaust nozzle 110 , and outdoor air flows into the outdoor air supply chamber 103 from the outdoor space through the outdoor air supply nozzle 130 . The air in the indoor exhaust chamber 101 passes through the total heat exchange element 300 and is discharged to the outdoor exhaust chamber 104, and the air in the outdoor air supply chamber 103 passes through the total heat exchange element 300 to the indoor air supply chamber ( 102) is released.

The indoor exhaust chamber 101 and the outdoor exhaust chamber 104 are disposed opposite to each other with respect to the total heat exchange element 300 , and the outdoor air supply chamber 103 and the indoor air supply chamber 102 are connected to the total heat exchange element 300 . may be placed opposite each other. The total heat exchange element 300 includes a plurality of layers formed with flow paths for flowing air from the indoor exhaust chamber 101 toward the outdoor exhaust chamber 104 and air from the outdoor air supply chamber 103 toward the indoor air supply chamber 102 . A plurality of layers in which flow passages are formed may be formed to be alternately arranged.

The total heat exchange element 300 includes a pre-filter 310 and a dust collection filter 320 on a side facing the indoor exhaust chamber 101, and a pre-filter 310 on a side facing the outdoor air supply chamber 103. can

Corner portions in four directions of the total heat exchange element 300 may be fixed to the inner sidewall of the air conditioning case 100 by the supports 150 respectively disposed between adjacent chambers. As each corner portion of the total heat exchange element 300 and the inner wall of the air conditioning case 100 are fixed by the support 150, the total heat exchange element 300 from each chamber 101, 102, 103, 104 and Air flow between the inner walls of the air conditioning case 100 is blocked, and air flows only through the total heat exchange element 300 to move between the chambers 101 , 102 , 103 , and 104 . The heat pipe 200 may be fixed between the support 150 disposed between the indoor exhaust chamber 101 and the outdoor air supply chamber 103 and the inner wall of the air conditioning case 100 .

The heat pipe 200 is disposed in the indoor exhaust chamber 101 and is disposed in the indoor heat exchange unit 210 and the outdoor air supply chamber 103 for exchanging heat with air input to the total heat exchange element 300 to provide a total heat exchange element ( 300) and an outdoor heat exchange unit 220 for heat exchange with air. The indoor heat exchange unit 210 and the outdoor heat exchange unit 220 are connected to each other so as to allow heat exchange, and a heat exchange passage through which the indoor heat exchange unit 210 and the outdoor heat exchange unit 220 are connected is a total heat exchange element 300 . It may be fixed between the support 150 and the wall of the air conditioning case 100 for fixing the. As heat exchange with indoor air is performed in the indoor heat exchange unit 210 and heat exchange with outdoor air is performed in the outdoor heat exchange unit 220 at the same time, primary heat exchange between indoor air and outdoor air through the heat pipe 200 is performed. Secondary heat exchange through the superheat exchange element 300 is performed at the same time, so that heat recovery efficiency can be greatly increased.

The damping case 400 may be disposed adjacent to one side of the air conditioning case 100 in which the indoor air supply chamber 102 and the outdoor exhaust chamber 104 are formed. The damping case 400 includes an indoor exhaust damping chamber 401 through which air is introduced from the outdoor exhaust chamber 104 through a blower 170 for indoor air, and a blower 160 for outdoor air from the indoor air supply chamber 102 . Air is introduced from one of the outdoor supply air damping chamber 404 through which air is introduced, the indoor exhaust damping chamber 401 and the outdoor air supply damping chamber 404, and the air is discharged to the outdoors through the outdoor exhaust nozzle 140. An outdoor exhaust damping chamber 403, and an indoor air supply damping chamber in which air is introduced from one of the indoor exhaust damping chamber 401 and the outdoor air supply damping chamber 404 and is discharged into the room through the indoor air supply nozzle 120 ( 402) is formed. As shown in FIG. 1 , the outdoor air blower 160 and the indoor air blower 170 may be installed in the indoor air supply chamber 102 and the outdoor exhaust chamber 104 , respectively.

The outdoor air blower 160 sucks air in the indoor air supply chamber 102 and supplies outdoor air through the outlet 161 connected to the side wall of the outdoor air supply damping chamber 404 located at the lower part of the indoor side as shown in FIG. 2 . It can be discharged into the damping chamber 404 . The indoor air blower 170 draws air in the outdoor exhaust chamber 104 and discharges it to the indoor exhaust damping chamber 401 through an outlet 171 connected to the side wall of the indoor exhaust damping chamber 401 located at the upper part of the outdoor side. can do.

Each of the indoor exhaust damping chamber 401, the indoor supply air damping chamber 402, the outdoor exhaust damping chamber 403 and the outdoor air supply damping chamber 404 is disposed adjacent to each other in the upper and lower portions of the indoor side and the upper and lower portions of the outdoor side, so that the minimum space can enable air distribution control in Outdoor exhaust from the indoor exhaust damping chamber 401 by opening and closing of the outdoor exhaust electric damper 410 for ventilation provided between the indoor exhaust damping chamber 401 and the outdoor exhaust damping chamber 403 disposed vertically adjacent to each other Air may flow or be blocked into the damping chamber 403 . Indoor air supply from the outdoor air supply damping chamber 404 by opening and closing of the indoor air supply electric damper 420 for ventilation provided between the indoor air supply damping chamber 402 and the outdoor air supply damping chamber 404 disposed vertically adjacent to each other Air may flow or be blocked into the damping chamber 402 . Damping the indoor air supply from the indoor exhaust damping chamber 401 by opening and closing the indoor air supply electric damper 430 for purification provided between the indoor exhaust damping chamber 401 and the indoor air supply damping chamber 402 disposed laterally adjacent to each other Air may flow or be blocked into the chamber 402 . Damping the outdoor exhaust from the outdoor air supply damping chamber 404 by opening and closing the outdoor exhaust electric damper 440 for purification provided between the outdoor air supply damping chamber 404 and the outdoor exhaust damping chamber 403 disposed laterally adjacent to each other. Air may flow or be blocked into chamber 403 .

The indoor exhaust damping chamber 401 may be provided with a HEPA filter 450 between the outdoor exhaust electric damper 410 for ventilation and the indoor air supply electric damper 430 for purification. The indoor air supply damping chamber 402 may include a UV sterilizer 460 between the indoor air supply electric damper 430 for purification and the indoor air supply electric damper 420 for ventilation.

Hereinafter, exemplary operation methods such as heating and cooling, indoor/outdoor air circulation, indoor air purification, etc. will be described by controlling the flow of indoor air and outdoor air by combining the opening and closing operations of each electric damper 410, 420, 430, 440. .

In the indoor ventilation operation mode in which the outdoor exhaust electric damper 410 for ventilation and the electric damper 420 for ventilation are opened, respectively, and the indoor supply air damper for purification 430 and the electric damper 440 for outdoor exhaust for purification are closed, respectively. The air introduced into the indoor exhaust nozzle 110 and the outdoor air supply nozzle 130 may be discharged to the outdoor exhaust nozzle 140 and the indoor air supply nozzle 120, respectively. The indoor ventilation operation mode may be configured to operate in an automatic or manual manner when indoor air is detected as polluted through a separate indoor air quality sensor (not shown). In the indoor ventilation operation mode, as both indoor air and outdoor air are introduced, primary heat exchange is performed through the heat pipe 200 and secondary heat exchange is performed through the total heat exchange element 300 , so that the indoor air is subjected to significantly improved heat exchange efficiency. Indoor ventilation is possible while reducing heating and cooling energy consumption.

The first indoor air purification operation mode in which the outdoor exhaust electric damper for ventilation 410, the indoor air supply electric damper 420 for ventilation, and the outdoor exhaust electric damper 440 for purification are closed, respectively, and the indoor air supply electric damper 430 for purification is opened In this case, the air introduced into the indoor exhaust nozzle 110 may be discharged to the indoor air supply nozzle 120 . The first indoor air purification operation mode may be configured to operate in an automatic or manual manner when indoor air is detected as polluted through an indoor air quality sensor and outdoor air is also detected as contaminated through a separate outdoor air quality sensor (not shown). can In the first indoor air purification operation mode, only the indoor air blower 170 operates, and it is possible to collect fine dust in the indoor air through the HEPA filter 450 and sterilize it through the UV sterilizer 460 .

A second indoor air purification operation in which the outdoor exhaust electric damper for ventilation 410 and the indoor air supply electric damper 420 for ventilation are closed, respectively, and the indoor air supply electric damper for purification 430 and the electric outdoor exhaust electric damper 440 for purification are opened, respectively In the mode, the air introduced into each of the indoor exhaust nozzles 110 and the outdoor air supply nozzles 130 may be discharged to the indoor air supply nozzles 120 and the outdoor exhaust nozzles 140 , respectively. The second indoor air purification operation mode may be configured to operate in an automatic or manual manner when indoor air is detected as polluted by the indoor air quality sensor and heating and cooling of an indoor space is possible through outdoor air. In the second indoor air purification operation mode, both the outdoor air blower 160 and the indoor air blower 170 operate, collecting fine dust in the indoor air through the HEPA filter 450 and sterilizing it through the UV sterilizer 460 is possible

According to the hybrid air circulator 10 described above, the primary heat exchange through the heat pipe 200 and the secondary heat exchange through the total heat exchange element 300 are simultaneously performed between the indoor air and the outdoor air, thereby significantly increasing the heat recovery efficiency. Each of the indoor exhaust damping chamber 401, indoor air supply damping chamber 402, outdoor exhaust damping chamber 403, and outdoor air supply damping chamber 404 is arranged so as to be adjacent to each other in the upper and lower portions of the indoor side and upper and lower portions of the outdoor side. It is possible to control air distribution in a minimum space, and as both indoor air and outdoor air are introduced in the indoor ventilation operation mode, primary heat exchange is performed through the heat pipe 200 and the total heat exchange element 300 is Because secondary heat exchange is achieved through the heat exchange, indoor ventilation is possible while reducing indoor heating and cooling energy consumption under significantly improved heat exchange efficiency, and HEPA filter when outdoor air quality is poor through the first indoor air purification operation mode and the second indoor air purification operation mode By collecting fine dust in indoor air through 450 and sterilizing through UV sterilizer 460, indoor air is purified, and outdoor air can be selectively introduced or blocked according to the need for heating and cooling, thereby further improving energy efficiency. can

Although the embodiments of the present invention have been described in more detail with reference to the accompanying drawings, the present invention is not necessarily limited to these embodiments, and various modifications may be made without departing from the spirit of the present invention. . Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments. Therefore, it should be understood that the embodiments described above are illustrative and non-limiting in all respects. The scope of protection of the present invention should be construed by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

100: air conditioning case
101: indoor exhaust chamber
102: indoor air supply chamber
103: outdoor air supply chamber
104: outdoor exhaust chamber
110: indoor exhaust nozzle
120: indoor air supply nozzle
130: outdoor air supply nozzle
140: outdoor exhaust nozzle
150: support
160: blower for outdoor air
170: blower for indoor air
200: heat pipe
210: indoor heat exchange unit
220: outdoor heat exchange unit
300: total heat exchange element
310: pre-filter
320: dust filter
400: damping case
401: indoor exhaust damping chamber
402: indoor supply air damping chamber
403: outdoor exhaust damping chamber
404: outdoor supply air damping chamber
410: outdoor exhaust electric damper for ventilation
420: indoor air supply electric damper for ventilation
430: indoor air supply electric damper for purification
440: outdoor exhaust electric damper for purification
450: hepa filter
460: UV sterilizer
10: Hybrid air circulator

Claims (3)

The total heat exchange element 300 is provided therein, and an indoor exhaust chamber 101 into which indoor air is introduced through the indoor exhaust nozzle 110 and an outdoor air supply chamber through which outdoor air is introduced through the outdoor air supply nozzle 130 ( 103), the outdoor exhaust chamber 104 through which the air in the indoor exhaust chamber 101 is discharged through the total heat exchange element 300, and the air in the outdoor air supply chamber 103 is discharged from the total heat exchange element 300 ) an air conditioning case 100 in which the indoor air supply chamber 102 discharged through is formed;
The total heat exchange element 300 is disposed in the indoor exhaust chamber 101 and is disposed in the indoor heat exchange unit 210 and the outdoor air supply chamber 103 for heat exchange with air input to the total heat exchange element 300 . The outdoor heat exchange unit 220 is provided for exchanging heat with air fed into the furnace, and the indoor heat exchange unit 210 and the outdoor heat exchange unit 220 are connected to each other so as to be heat-exchangeable, and the total heat exchange element 300 is provided. a heat pipe 200 fixed between the fixing support 150 and the wall of the air conditioning case 100 ; and
Air is introduced from the outdoor exhaust chamber 104 through the indoor exhaust damping chamber 401 into which air is introduced through the indoor air blower 170 and the outdoor air blower 160 from the indoor air supply chamber 102 . air is introduced from one of the outdoor air supply damping chamber 404, the indoor exhaust damping chamber 401 and the outdoor air supply damping chamber 404, and the outdoor exhaust air is discharged to the outside through the outdoor exhaust nozzle 140 A damping chamber 403 and an indoor air supply damping chamber in which air is introduced from one of the indoor exhaust damping chamber 401 and the outdoor air supply damping chamber 404 and is discharged into the room through the indoor air supply nozzle 120 ( Including a damping case 400 in which 402 is formed,
The indoor exhaust damping chamber 401 by opening and closing of the outdoor exhaust electric damper 410 for ventilation provided between the indoor exhaust damping chamber 401 and the outdoor exhaust damping chamber 403 disposed vertically adjacent to each other. Air flows or is blocked from the outdoor exhaust damping chamber (403),
The outdoor air supply damping chamber 404 by opening and closing of the indoor air supply electric damper 420 for ventilation provided between the indoor air supply damping chamber 402 and the outdoor air supply damping chamber 404 disposed vertically adjacent to each other. Air flows or is blocked from the indoor supply air damping chamber 402,
From the indoor exhaust damping chamber 401 by opening and closing of the indoor air supply electric damper 430 for purification provided between the indoor exhaust damping chamber 401 and the indoor air supply damping chamber 402 disposed laterally adjacent to each other. Air flows or is blocked into the indoor air supply damping chamber 402,
From the outdoor air supply damping chamber 404 by opening and closing of the outdoor exhaust electric damper 440 for purification provided between the outdoor air supply damping chamber 404 and the outdoor exhaust damping chamber 403 disposed laterally adjacent to each other. Air flows or is blocked into the outdoor exhaust damping chamber (403),
Indoor ventilation in which the outdoor exhaust electric damper for ventilation 410 and the indoor air supply electric damper 420 for ventilation are opened, respectively, and the indoor air supply electric damper 430 for purification and the outdoor exhaust electric damper 440 for purification are closed, respectively In the operation mode, the air introduced into each of the indoor exhaust nozzle 110 and the outdoor air supply nozzle 130 is discharged to the outdoor exhaust nozzle 140 and the indoor air supply nozzle 120, respectively,
A first indoor in which the outdoor exhaust electric damper 410 for ventilation, the indoor air supply electric damper 420 for ventilation, and the outdoor exhaust electric damper 440 for purification are closed, respectively, and the indoor air supply electric damper 430 for purification is opened In the air purification operation mode, the air introduced into the indoor exhaust nozzle 110 is discharged to the indoor air supply nozzle 120,
A second in which the outdoor exhaust electric damper for ventilation 410 and the indoor air supply electric damper 420 for ventilation are closed, respectively, and the indoor air supply electric damper 430 for purification and the outdoor exhaust electric damper 440 for purification are opened, respectively In the indoor air purification operation mode, the air introduced into each of the indoor exhaust nozzle 110 and the outdoor air supply nozzle 130 is discharged to the indoor air supply nozzle 120 and the outdoor exhaust nozzle 140, respectively,
The total heat exchange element 300 includes a pre-filter 310 and a dust collecting filter 320 on a side facing the indoor exhaust chamber 101, and a pre-filter 310 on a side facing the outdoor air supply chamber 103. to provide
The indoor exhaust damping chamber 401 includes a HEPA filter 450 between the outdoor exhaust electric damper 410 for ventilation and the indoor air supply electric damper 430 for purification,
The indoor air supply damping chamber 402 is provided with a UV sterilizer 460 between the indoor air supply electric damper 430 for purification and the indoor air supply electric damper 420 for ventilation,
The indoor exhaust chamber 101 and the outdoor exhaust chamber 104 are disposed opposite to each other with respect to the total heat exchange element 300 , and the outdoor air supply chamber 103 and the indoor air supply chamber 102 are connected to the heat transfer element 300 . are disposed opposite to each other with respect to the exchange element 300,
The total heat exchange element 300 includes a plurality of layers formed with flow paths for flowing air from the indoor exhaust chamber 101 toward the outdoor exhaust chamber 104 and from the outdoor air supply chamber 103 to the indoor air supply chamber 102 . ) is formed such that a plurality of layers in which a flow path for flowing air is formed is alternately arranged,
Corner portions in four directions of the total heat exchange element 300 are fixed to the inner sidewall of the air conditioning case 100 by the support 150,
The damping case 400 is disposed adjacent to one side of the air conditioning case 100 in which the indoor air supply chamber 102 and the outdoor exhaust chamber 104 are formed,
The outdoor air blower 160 sucks air in the indoor air supply chamber 102 and discharges it to the outdoor air supply damping chamber 404 through an outlet 161 connected to a side wall of the outdoor air supply damping chamber 404, , the indoor air blower 170 sucks air in the outdoor exhaust chamber 104 and discharges it to the indoor exhaust damping chamber 401 through an outlet 171 connected to a sidewall of the indoor exhaust damping chamber 401 . Hybrid air circulator (10), characterized in that.
delete delete

Images