KR101275160B1 - Ventilation integrated hybrid air conditioner - Google Patents

Abstract

A ventilation integrated hybrid generation air conditioner is disclosed. Ventilation integrated hybrid generation air conditioner according to the present invention has a first internal space, a second internal space and a third internal space isolated from each other, the air supply outlet and the first internal space connected to the second internal space and connected to the indoor side A case having an air intake port connected to the indoor side and an air intake port and an exhaust outlet connected to the third internal space and connected to the outdoor side, respectively; A heating cooling pipe installed in at least one inner space of the first inner space and the second inner space and supplied with a cooling fluid or a heating fluid so as to flow; A total heat exchanger disposed in the third inner space and dividing the third inner space into a first sub space and a second sub space; An air supply fan for sucking outdoor air from the air supply inlet and an exhaust fan for sucking indoor air from the exhaust air intake; And a damper that connects or blocks each other between the first inner space and the second inner space, between the first sub space or the second sub space and the first inner space, and between the first sub space or the second sub space and the second inner space. Unit; Inside the case, a circulation passage, an air supply passage, an exhaust passage, an air supply bypass passage, and an exhaust bypass passage are formed according to the operation modes of the damper unit, the air supply fan, and the exhaust fan.

Description

Ventilation integrated hybrid air conditioner

The present invention relates to a ventilation integrated hybrid generation air conditioner, and more particularly, to a ventilation integrated hybrid generation air conditioner that can not only ventilate indoor air but also actively control pollution, temperature, and humidity of indoor air.

In general, the air conditioner is forcibly drawing indoor air or outdoor air and blowing it to the outdoor or indoor side, and is a multi-use facility mainly used by many people such as schools, hospitals, subway stations, underground shopping malls, libraries, museums, and offices. For the ventilation of air, the outside air is filtered in an air conditioner or a clean room and then introduced into the room.

Republic of Korea Patent Publication No. 2005-7279 shows an example of an air conditioner. The air conditioner forms an air inlet and an air outlet at one end of the casing, an air outlet and an air inlet are formed at the other end, and an air inlet fan and an air exhaust fan are installed inside the casing, respectively, and the heat is transferred to the inner center of the casing. The exchanger and the filter are configured to be installed.

In particular, the air conditioner having such a structure is the outdoor air is introduced into the casing by the outside air inlet fan, filtered by the filter and discharged into the room, and at the same time, the indoor air is introduced into the casing by the bet discharge fan, filtered by the filter to the outside In this process, the heat exchanger absorbs the heat of the indoor air discharged during the winter to increase the temperature of the outdoor air and reduces the heating loss, while absorbing the cold air of the indoor air discharged during the summer. By lowering the temperature of outdoor air, the cooling loss is reduced.

However, in the spring and autumn, the air is not cooled or heated separately, but the temperature of the indoor air becomes higher than the temperature of the outdoor air due to food cooking and body temperature. There is a desire to lower the temperature of the air and to vent, but the conventional air conditioner does not satisfy this desire because the outdoor air heated by the indoor air flows because the ventilation is only through the heat exchange member.

In addition, the conventional air conditioner has a main function of simply exchanging outdoor air and indoor air, and has a limitation in that it cannot actively control the state of indoor air by maintaining or converting indoor air to a desired temperature or humidity.

The present invention has been made to solve the above problems, the object of the present invention is not only to actively control the temperature or humidity of the indoor air, but also to operate in a variety of modes according to the season or the user's intention It is to provide a ventilation-integrated hybrid generation air conditioner to improve the ease of use and further reduce the energy.

In order to achieve the above object, the ventilation-integrated hybrid generation air conditioner according to the present invention has a first internal space, a second internal space and a third internal space isolated from each other, and are connected to the second internal space and connected to the indoor side. A case having an air supply outlet, an exhaust inlet connected to the first inner space and connected to an interior side, and an air inlet and exhaust outlet connected to the third internal space and connected to an outdoor side; A heating cooling pipe installed in at least one inner space of the first inner space and the second inner space and supplied with a cooling fluid or a heating fluid; A total heat exchanger disposed in the third inner space and dividing the third inner space into a first sub space and a second sub space; An air supply fan for sucking outdoor air from the air supply inlet and an exhaust fan for sucking indoor air from the exhaust air intake; And installed inside the case so that the first inner space and the second inner space, the second sub space and the first inner space, and the first sub space and the second inner space are connected to or blocked from each other. And a damper unit, wherein an inside of the case is an air supply passage, which is a passage through which the outdoor air sucked from the air supply inlet is discharged through the air supply outlet, and the indoor air sucked from the air exhaust port is discharged through the air exhaust port. An exhaust passage is formed, wherein the air supply passage and the exhaust passage are formed to cross each other in the heat exchanger, and inside the case, outdoor air sucked from the air intake port passes through the air supply outlet through the second sub space. The air supply bypass passage discharged through the air and the indoor air sucked from the exhaust intake port pass through the first sub space. An exhaust bypass passage is formed through the exhaust outlet, and a circulation passage through which the indoor air sucked from the exhaust inlet is discharged through the air supply outlet through the first inner space and the second inner space is formed inside the case. It is characterized by being formed.

In this case, a first partition wall separating the first inner space and the second inner space from each other and a second partition wall separating the third inner space from the first inner space and the second inner space at the same time. And a second partition wall, each of which is disposed at both sides of a central partition wall part including a part of the second partition wall, the part of which the heat exchanger is projected, and a part disposed at both ends of the projected part. The damper unit is divided into a pair of side partitions, the damper unit is installed in the first partition, the circulation damper for opening and closing the circulation port formed through the first partition; A first exhaust damper and a first air supply damper installed to be spaced apart from each other in the central partition wall of the second partition wall to open and close the first exhaust pipe and the first air supply pipe respectively formed through the central partition wall; And a second exhaust damper disposed at each of the pair of side partition walls to open and close the second exhaust port formed through the one side partition wall and the second air supply formed through the other side partition wall, respectively. It is preferable to include a; secondary air damper.

In addition, the supply pipe is connected to the heating cooling pipe, disposed outside the case, the cooling fluid or the heating fluid is supplied; An electric valve installed in the supply pipe and controlling the supply of the cooling fluid or the heating fluid to the heating cooling pipe; And maintaining the indoor air at a preset reference temperature or reference humidity while the first inner space and the second inner space are respectively blocked with the third inner space and the first inner space and the second inner space are interconnected. Preferably, the control unit further controls at least one of the electric valve and the air supply fan based on the measured temperature or the measured humidity of the indoor air.

In addition, a filter for filtering the indoor air and outdoor air is respectively installed at the air intake port and the exhaust air intake port, and the heating cooling pipe is preferably formed in a coil shape.

According to the present invention, the temperature of the indoor air can be actively controlled by supplying hot water or cold water to the heating cooling pipe. In particular, by controlling the blowing amount of the air supply fan and the supply amount of hot or cold water, it is possible to control the temperature and humidity of the indoor air, and can even control the time to reach the desired level of temperature and humidity.

In addition, since the air conditioner can operate in various modes such as a circulation mode, a heat exchange mode, and an air cooling mode, convenience of use is increased. In particular, in the middle period, such as spring or autumn, it is possible to cool the room by using outdoor air, thereby saving energy.

1 is a schematic cross-sectional view of a ventilation integrated hybrid generation air conditioner according to an embodiment of the present invention.
FIG. 2 is a schematic cross-sectional view of the II-II line of FIG. 1.
3 is a schematic cross-sectional view taken along line III-III of FIG. 1.
4 is a schematic plan view of the air conditioner of FIG. 1.
5, 6, 7a and 7b are schematic cross-sectional views for explaining the operation mode of the air conditioner of Fig. 1, respectively.

1 is a schematic cross-sectional view of a ventilation integrated hybrid generation air conditioner according to an embodiment of the present invention, FIG. 2 is a schematic cross-sectional view of line II-II of FIG. 1, and FIG. 3 is a schematic cross-sectional view of line III-III of FIG. 1. 4 is a schematic plan view of the air conditioner of FIG. 1, and FIGS. 5, 6, 7A, and 7B are schematic cross-sectional views for describing an operation mode of the air conditioner of FIG. 1, respectively.

1 to 7B, the ventilation integrated hybrid generation air conditioner 100 according to the present embodiment includes a case 10, a heating cooling pipe 20, a heat exchanger 30, an air supply fan 40 and An exhaust fan 50, a damper unit 60, and a control part are provided.

The case 10 is formed in a box shape as a whole. The interior of the case 10 is divided into a first inner space 101, a second inner space 102, and a third inner space 103 by the first partition wall 11 and the second partition wall 12. The first inner space 101 and the second inner space 102 are divided by the first partition wall 11 and disposed at the same height, and the third inner space 103 is the first inner space 101 and the first inner space 101. 2 is disposed below the inner space 102 and separated from the first inner space 101 and the second inner space 102 by the second partition 12. Here, the first partition wall 11 and the second partition wall 12 are formed in a plane. In addition, the case 10 is provided with an air supply outlet 104 connected to the second internal space 102 and an exhaust suction port 105 connected to the first internal space 101. The air supply outlet 104 is a passage through which the outdoor air is discharged to the indoor side, and the exhaust suction inlet 105 is a passage through which the indoor air is sucked from the indoor side. In addition, the case 10 also includes an air supply suction inlet 106 and an exhaust outlet 107 connected to the third internal space 103, respectively. The intake air inlet 106 is a passage through which outdoor air is sucked from the outside, and the exhaust outlet 107 is a passage through which indoor air is discharged to the outside. In the vicinity of the air intake port 106 and the exhaust air intake port 105, filters 13 and 14 for filtering indoor air and outdoor air to be sucked are provided, respectively. The filters 13 and 14 are disposed on the suction paths of the indoor air and the outdoor air.

In addition, the second partition wall 12 of the case is divided into a central partition wall 121, a first side partition wall 122, and a second side partition wall 123, and a central partition wall 121 and a first side partition wall. The boundary between 122 and the second side partition wall portion 123 is shown in phantom in FIG. 2. The central partition wall 121 is disposed between the first side partition wall 122 and the second side partition wall 123. The central partition wall 121 is a portion where the total heat exchanger 30 is disposed. When projecting the heat exchanger 30 to the 2nd partition 12, the projection part is arrange | positioned at the center partition part 121. As shown in FIG. Of course, there are also portions where the heat exchanger 30 is not projected at both edges of the central partition wall 121.

The heating cooling pipe 20 is installed in both the first inner space 101 and the second inner space 102. That is, the heating cooling pipe 20 includes a first pipe 21 installed in the first inner space 101 and a second pipe 22 installed in the second inner space 102, and the first pipe ( 21 and the second pipe 22 are connected to each other. The heating cooling pipe 20 has a hollow pipe shape but has a coil shape, whereby the cooling fluid or the heating fluid can flow inside the heating cooling pipe 20. The cooling fluid or the heating fluid is obtained by, for example, heating and cooling water or oil. In this embodiment, the cooling fluid or the heating fluid is used as a heating fluid and a cooling fluid by heating and cooling water. In addition, the heating cooling pipe 20 is preferably made of a metal material excellent in thermal conductivity.

The supply pipe 211 is connected to the first pipe 21 of the heating cooling pipe. The supply pipe 211 is disposed outside the case 10. The supply pipe 211 is connected to a heating reservoir (not shown) in which water heated by a boiler is stored, and a cooling reservoir (not shown) in which water cooled by a freezer is stored. Heated water (hot water) and cooled water (cold water) may be selectively supplied into the supply pipe 211, and thus the supplied water may be used to supply the first pipe 21 and the second pipe 22. It will flow sequentially. The water flowing into the second pipe 22 is recovered through the recovery pipe 221 connected to the second pipe 22 of the heating cooling pipe. The water recovered through the recovery pipe 221 is preferably supplied to a heating reservoir or a cooling reservoir to be reused. In addition, an electric valve 23 is installed in the supply pipe 211. The electric valve 23 operates to open and close the supply pipe 211, and thus water may or may not be supplied to the first pipe 21 of the heating / cooling pipe. The electric valve 23 also controls the amount of water supplied to the supply pipe 211 according to the opening degree.

The total heat exchanger (30) is a device for circulating fresh air from outside while maintaining indoor temperature by recovering heat and latent heat by directly exchanging indoor and outdoor air. The total heat exchanger 30 is formed in a rectangular shape as a whole. The total heat exchanger (30) is disposed in the third inner space (103), and the front and rear surfaces thereof are disposed to face the front and rear of the case (10) as shown in Figs. When the heat exchanger 30 is disposed as described above, the third internal space 103 is divided into two spaces, and the first sub space 1031 and the second sub space 1032 are disposed on both sides of the heat exchanger 30. ) Is formed. Here, the first sub space 1031 and the second sub space 1032 are not meant to be physically separated spaces, and the air supply passage, the exhaust passage, the exhaust bypass passage, and the air supply bypass passage which will be described later will be described. It is to. In FIG. 2, the boundary between the first sub space 1031 and the second sub space 1032 is illustrated by an imaginary line. In addition, each of the corners of the total heat exchanger (30) is formed with a secondary partition wall (31) connected to the inner surface of the case 10 and the second partition wall (12). In addition, the first sub-space 1031 and the second sub-space 1032 correspond to the second side partition wall portion 123 and the first side partition wall portion 122, and the term corresponds to the first sub space 1031. And when the second sub-space 1032 is projected onto the second partition 12, respectively, the space is included in the second side partition 123 and the first side partition 122, respectively.

The air supply fan 40 and the exhaust fan 50 are for forming a flow of air. The air supply fan 40 sucks the outdoor air through the air supply air inlet 106 and discharges the indoor air through the air supply outlet 104. The exhaust fan 50 is for sucking the indoor air through the exhaust suction inlet 105 to discharge the outdoor air to the outdoor side through the exhaust outlet (107). In order to adjust the wind speed, that is, the blowing amount, of the air supply fan 40 and the exhaust fan 50, it is preferable that an inverter (not shown) is provided.

The damper unit 60 is between the first inner space 101 and the second inner space 102, between the second sub space 1032 and the first inner space 101, and the first sub space 1031 and the second. It is for connecting or blocking the interior space 102 between each other. When the space inside the case 10 is connected or blocked by the damper unit 60 as described above, the air conditioner 100 may be operated in the circulation mode, the heat exchange mode, and the air cooling mode shown in FIGS. 5, 6, and 7, respectively. It becomes possible. The damper unit 60 is installed inside the case, respectively, for the circulation damper 61 for controlling the flow of air, the first exhaust damper 62, the first air supply damper 63, and the second exhaust damper 64. ) And a second air supply damper (65).

The circulation damper 61 is installed in the first partition 11 to open and close the circulation port 111 formed through the first partition. Therefore, the first inner space 101 and the second inner space 102 are connected to each other or blocked according to the operation of the circulation damper 61.

The first exhaust damper 62 and the first air supply damper 63 are installed on the central partition wall 121 of the second partition wall to be spaced apart from each other. The first exhaust damper 62 and the first air supply damper 63 are disposed at both edges of the central partition wall 121. The first exhaust damper 62 and the first air supply damper 63 open and close the first exhaust device 1211 and the first air supply device 1212 formed through the central partition wall 121, respectively.

The second exhaust damper 64 and the second air supply damper 65 are installed in the first side partition wall portion 122 and the second side partition wall portion 123, respectively. The second exhaust damper 64 and the second air supply damper 65 open and close the second exhaust device 1221 and the second air supply device 1231, respectively. Here, the second exhaust hole 1221 and the second air supply hole 1231 are formed through the first side partition wall portion 122 and the second side partition wall portion 123, respectively, and the second exhaust hole 1221 and the second air supply hole are respectively formed. 1231 is larger than the first exhaust 1211 and the first air supply 1212, respectively.

The first air supply damper 63 and the second air supply damper 65 are opened upward, and the first exhaust damper 62 and the second exhaust damper 64 are opened downward.

For reference, FIG. 2 omits the illustration of the second partition wall disposed between the second air supply damper and the second exhaust damper for the sake of simplicity of the drawing, and FIG. It is omitted. .

The controller (not shown) performs a control operation so that the quality of indoor air is maintained at a desired standard. The control unit controls the electric valve 23 and the air supply fan 40, respectively. When the measured temperature and the measured humidity of the indoor air are input, the controller controls the electric valve 23 and the air supply fan 40 to maintain the preset reference temperature and the reference humidity, thereby adjusting the amount of water supplied and the amount of blown air. For example, when the supply amount of the heated water is increased per unit time, the heat generated from the heating cooling pipe 20 is increased to heat the air faster, and likewise, when the supply amount of the cooled water is increased, the air can be cooled faster. Will be. And even if the water is not supplied or the amount of water is constant, increasing the air flow rate can be adjusted to the reference pollution degree and the reference temperature within the air pollution degree and the indoor air temperature in a short time.

The control unit also controls the operation of the circulation damper 61, the first exhaust damper 62, the first air supply damper 63, the second air exhaust damper 64, and the second air supply damper 65. .

In the ventilation integrated hybrid generation air conditioner 100 configured as described above, the circulation damper 61, the first exhaust damper 62, the first air supply damper 63, the second exhaust damper 64, and In accordance with the operation of the second air supply damper 65, a circulation passage, an air supply passage, an exhaust passage, an air supply bypass passage, and an exhaust bypass passage are formed inside the case 10. Hereinafter, referring to FIGS. 5 to 7. I'll explain.

5 shows an operating state of the circulation mode. Referring to FIG. 5, the circulation damper 61 is operated to open the circulation port 111, and the first exhaust damper 62, the first air supply damper 63, and the second exhaust damper 64. And the second air supply damper 65 operates to close the first exhaust port 1211, the first air supply 1212, the second air exhaust 1221, and the second air supply 1231, respectively. When the air supply fan 40 is operated in the state in which the dampers are operated as described above, the air sucked through the exhaust intake port 105 receives the first internal space 101, the circulation port 111, and the second internal space 102. After sequentially flowing through the exhaust outlet 107 is discharged back to the indoor side, it is possible to circulate the indoor air. The flow path of the sucked indoor air is the circulation passage. When the hot water is supplied to the heating cooling pipe 20, the sucked indoor air is heated to obtain heat from the heated heating cooling pipe 20, so that the sucked indoor air is heated and heated to supply air to the air outlet 104. Is discharged through). In addition, when cold water is supplied to the heating cooling pipe 20, the sucked indoor air is cooled and discharged in a cool state. And since the indoor air is filtered by the filter 14 at the time of inhalation, the discharged indoor air is automatically purified.

This circulation operation mode is useful when actively controlling the temperature, humidity, and pollution (dust concentration) of indoor air to a desired level, for example, reference temperature, reference humidity, and reference pollution. And by measuring the temperature, humidity and pollution of the indoor air and controlling the air supply fan and the electric valve on the basis of the measured value, it is possible to adjust the air flow rate, the amount of hot or cold water supplied to the heating cooling pipe, accordingly Air temperature, humidity, and pollution levels can be easily controlled, and the time to the desired level can be controlled.

Next, Fig. 6 shows the operating state of the heat exchange mode. Referring to FIG. 6, the circulation damper 61, the second exhaust damper 64, and the second air supply damper 65 include a circulation port 111, a second exhaust hole 1221, and a second air supply device 1231. ), And the first exhaust damper 62 and the first air supply damper 63 open the first exhaust 1211 and the first air supply 1212, respectively, without being fully opened. Works to open. When the air supply fan 40 and the exhaust fan 50 are both operated while the dampers are operated as described above, the outdoor air sucked through the air supply inlet 106 is transferred to the heat exchanger 30 in the third internal space 103. It passes through the first air supply 1212 and is supplied to the second inner space 102, and after flowing the second inner space 1020 is discharged to the interior through the air supply outlet 104. This sucked outdoor air The flow path of is an air supply flow path, and an air flow path through which the indoor air is discharged at the same time as the air supply flow path is formed, that is, the indoor air sucked through the exhaust suction opening 105 flows through the first internal space 101. It is supplied to the third internal space 103 through the first exhaust port 1211, and after passing through the heat exchanger 30 is discharged to the outdoor side through the exhaust outlet 107, the flow path of the indoor air is exhausted immediately In particular, the supply passage and the exhaust passage are electrothermal bridges. Heat exchange occurs between the air and the indoor air and the outdoor air passing through the total heat exchanger 30. Of course, the filter 13 is installed on the air supply passage, so that the outdoor air Is filtered and then supplied to the indoor side.

This heat exchange mode is mainly useful when the pollution degree of indoor air is higher than the reference value and the pollution degree needs to be reduced. At this time, since the heat exchange by the total heat exchanger 30 is made, heat recovery is possible, thereby reducing energy waste. In addition, by supplying water to the heating cooling pipe 20, it is possible to appropriately control the temperature of the indoor air.

Meanwhile, in the state shown in FIG. 6, when the circulation damper 61 is operated to open the circulation port 111, a part of the indoor air sucked through the exhaust suction port 105 is connected to the second through the circulation port 111. It is introduced into the interior space 102, the remaining indoor air is supplied to the heat exchanger (30) through the first exhaust (1211). In particular, the indoor air supplied to the second inner space 102 through the circulation port 111 is not only filtered by the filter 14, but also when the water is supplied into the heating cooling pipe 20, the temperature of the water. Depending on the heating or cooling is discharged to the room side.

7A and 7B show an operating state of the external air cooling mode. 7A and 7B, the circulation damper 61, the first exhaust damper 62, and the first air supply damper 63 may include a circulation port 111, a first exhaust pipe 1211, and a first grade. The mechanism 1212 is operated to close, respectively, and the second exhaust damper 64 and the second air supply damper 65 open the second exhaust device 1221 and the second air supply device 1231, respectively, but not completely open them. It works without opening properly. When the air supply fan 30 and the exhaust fan 40 are both operated while the dampers are operated in this way, the indoor air sucked through the air supply intake port 106 is formed in a third internal space, especially a second of the third internal space. The sub space 1032 is flowed and supplied to the second inner space 102 through the second air supply 1231, and after the first inner space 101 flows, the air is discharged to the interior through the air supply outlet 104. In this way, the outdoor air is supplied to the indoor side by bypassing the heat exchanger 30, and the flow path of the outdoor air is the air supply bypass passage, of course, the outdoor air is supplied to the indoor side after being filtered by the filter 13. In addition, an exhaust bypass flow path is formed at the same time that the air supply bypass flow path is formed and exhausted after bypassing the heat exchanger, that is, the indoor air sucked through the exhaust intake port 105 is formed in the first internal space. The second exhaust port 12 by flowing 101; 21 is supplied to the third internal space, especially the first sub space 1031 of the third internal space, and finally discharged to the outdoor side through the exhaust outlet 107. The flow path of the indoor air is exhausted immediately. Bypass Euro.

This air cooling mode is mainly useful when the indoor temperature is later than the outdoor temperature, such as spring or autumn. The air supply fan 40 is controlled based on the indoor temperature measured by the indoor temperature sensor. For example, as the indoor temperature is higher, the air blowing amount of the air supply fan 40 may be increased to quickly lower the indoor temperature to a desired temperature. In particular, in the external air cooling mode, the cooled water is not supplied to the heating cooling pipe 20. In other words, only the outside air is utilized to cool down the room temperature and it is not necessary to cool the water. Therefore, there is an advantage to save energy.

As described above, in this embodiment, since the cold or hot water is supplied to the heating cooling pipe 20 to heat or cool the air through heat exchange with the air, the temperature and humidity of the indoor air can be easily controlled. It becomes possible. In particular, since the supply amount and the blowing amount of cold or hot water can be controlled through the control of the electric valve 23 and the air supply fan 40, it is easy to maintain not only the temperature and humidity of the indoor air, but also the control time is easily controlled. Can be.

In addition, in order to reduce the pollution of indoor air, fresh outdoor air can be introduced and utilized, and in this process, indoor air and outdoor air heat exchange in the heat exchanger in the process of discharging indoor air as much as the introduced outdoor air. It is possible to reduce energy waste.

And in the middle of the spring or autumn, you can cool the room by introducing outdoor air without a separate heat source. In addition, there is an advantage that can be introduced to the outdoor air without a separate ventilation.

As mentioned above, the present invention has been described in detail with reference to preferred embodiments, but the present invention is not limited to the above embodiments, and various modifications may be made by those skilled in the art within the technical idea of the present invention. It is obvious.

10 ... case 11 ... first bulkhead
12 ... 2nd bulkhead 20 ... Heating cooling pipe
21 ... 1st pipe 22 ... 2nd pipe
23 Electric valve 30 Electric heat exchanger
31 Auxiliary bulkhead 40 Air supply fan
50 ... exhaust fan 60 ... damper unit
61.Circulation damper 62 ... First exhaust damper
63 ... Primary damper 64 ... Primary exhaust damper
65 ... 2nd Class Damper 100 ... Hybrid Generation A / C
101 ... 1st internal space 102 ... 2nd internal space
103 ... 3rd internal space 104 ... air supply outlet
105.Exhaust intake 106.Air intake
107 Exhaust outlet 121 Central bulkhead
122 ... first side bulkhead 123 ... second side bulkhead
1211 ... First Exhaust System 1212 ... First Class
1221 ... 2nd exhaust mechanism 1231 ... 2nd exhaust mechanism

Claims (4)

delete An air supply outlet having a first internal space, a second internal space, and a third internal space, which are mutually isolated, connected to the second internal space and connected to an indoor side, and connected to the first internal space and connected to an indoor side A case having an air inlet, an air inlet, and an exhaust outlet connected to the third internal space and connected to an outdoor side, respectively;
A heating cooling pipe installed in at least one inner space of the first inner space and the second inner space and supplied with a cooling fluid or a heating fluid;
A total heat exchanger disposed in the third inner space and dividing the third inner space into a first sub space and a second sub space;
An air supply fan for sucking outdoor air from the air supply inlet and an exhaust fan for sucking indoor air from the exhaust air intake; And
Installed inside the case so that the first internal space and the second internal space, the second sub space and the first internal space, and the first sub space and the second internal space are connected to or blocked from each other. A damper unit;
An inside of the case is provided with an air supply passage which is a passage through which the outdoor air sucked from the air supply inlet is discharged through the air supply outlet and an exhaust air passage through which the indoor air sucked from the exhaust air inlet is discharged through the air exhaust outlet. The air supply passage and the exhaust passage are formed to cross each other in the heat exchanger,
An air supply bypass passage through which the outdoor air sucked from the air supply suction inlet is discharged through the air supply outlet through the second sub space, and the indoor air sucked from the exhaust air inlet through the first sub space. The exhaust bypass flow path is discharged through the exhaust outlet is formed,
Inside the case, a circulation passage is formed through which the indoor air sucked from the exhaust inlet is discharged through the air supply outlet through the first inner space and the second inner space.
A first partition wall separating the first inner space and the second inner space from each other and a second partition wall separating the third inner space from the first inner space and the second inner space at the same time are formed in the case. ,
The second partition wall is divided into a central partition including a portion in which the heat exchanger is projected out of the second partition and a pair of side partitions respectively disposed on both sides of the central partition,
The damper unit,
A circulation damper installed at the first partition wall to open and close a circulation port formed through the first partition wall;
A first exhaust damper and a first air supply damper installed to be spaced apart from each other in the central partition wall of the second partition wall to open and close the first exhaust pipe and the first air supply pipe respectively formed through the central partition wall; And
And a second exhaust damper provided at each of the pair of side partition walls to open and close a second exhaust port formed through the one side partition wall and a second air supply formed through the other side partition wall, respectively. Ventilation-integrated hybrid generation air conditioner comprising a; secondary damper. An air supply outlet having a first internal space, a second internal space, and a third internal space, which are mutually isolated, connected to the second internal space and connected to an indoor side, and connected to the first internal space and connected to an indoor side A case having an air inlet, an air inlet, and an exhaust outlet connected to the third internal space and connected to an outdoor side, respectively;
A heating cooling pipe installed in at least one inner space of the first inner space and the second inner space and supplied with a cooling fluid or a heating fluid;
A total heat exchanger disposed in the third inner space and dividing the third inner space into a first sub space and a second sub space;
An air supply fan for sucking outdoor air from the air supply inlet and an exhaust fan for sucking indoor air from the exhaust air intake; And
Installed inside the case so that the first internal space and the second internal space, the second sub space and the first internal space, and the first sub space and the second internal space are connected to or blocked from each other. A damper unit;
An inside of the case is provided with an air supply passage which is a passage through which the outdoor air sucked from the air supply inlet is discharged through the air supply outlet and an exhaust air passage through which the indoor air sucked from the exhaust air inlet is discharged through the air exhaust outlet. The air supply passage and the exhaust passage are formed to cross each other in the heat exchanger,
An air supply bypass passage through which the outdoor air sucked from the air supply suction inlet is discharged through the air supply outlet through the second sub space, and the indoor air sucked from the exhaust air inlet through the first sub space. The exhaust bypass flow path is discharged through the exhaust outlet is formed,
Inside the case, a circulation passage is formed through which the indoor air sucked from the exhaust inlet is discharged through the air supply outlet through the first inner space and the second inner space.
A supply pipe connected to the heating cooling pipe, disposed outside the case, and supplied with the cooling fluid or the heating fluid;
An electric valve installed in the supply pipe and controlling the supply of the cooling fluid or the heating fluid to the heating cooling pipe; And
The indoor air is maintained at a predetermined reference temperature or reference humidity in a state where the first inner space and the second inner space are respectively blocked with the third inner space and the first inner space and the second inner space are interconnected. And a control unit for controlling at least one of the electric valve and the air supply fan based on the measured temperature or the measured humidity of the indoor air. delete

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