JP2012102918A - Air conditioning system and building - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an air conditioning system capable of efficiently discharging water, such as dew condensation water generated through the air conditioning, and polluted water generated from an air-liquid contact type air purifier.SOLUTION: An air conditioner 3 is installed in a building 1. In the air conditioner 3, an indoor unit 3A of the air conditioner, as an air-conditioning body device having the cooling/heating function and the dehumidifying function on the downstream side, and an air washer 3B, as an air-liquid contact type air purifier on the upstream side, are connected to each other in a ventilating manner. A branch drain 12A, provided in the indoor unit 3A of the air conditioner, and a branch drain 12B, provided in the air washer 3B, are merged with each other in a common drain 12.

Description

  The present invention relates to a building air conditioning system and a building equipped with the air conditioning system.

  2. Description of the Related Art Conventionally, an air conditioning system that cleans air using a gas-liquid contact type air purifier (air washer) is known for air conditioning in a building floor space (see, for example, Patent Document 1). .

JP 2005-211741 A

  However, in a conventional air conditioning system such as Patent Document 1, how efficiently water such as condensed water generated by air conditioning (cooling) and polluted water generated by a gas-liquid contact type air purifier is drained efficiently. The actual situation was not taken into consideration.

  Accordingly, the present invention provides an air conditioning system capable of efficiently draining water such as condensed water generated by air conditioning and contaminated water generated by a gas-liquid contact type air purifier, and a building equipped with the air conditioning system. The purpose is to do.

  In order to achieve the above object, an air conditioning system according to the present invention has an air conditioner installed in a building, and the air conditioner includes an air conditioning main unit having a downstream cooling / heating function and a dehumidifying function, and an upstream gas / liquid. A contact-type air purifier is connected to be able to ventilate, and a branch drain provided in the air-conditioning main unit and a branch drain provided in the gas-liquid contact-type air purifier are a common drain. It is characterized by being merged.

  Here, the air conditioner is installed in a space under the floor of the building, and the air conditioner has an air outlet provided on the gas-liquid contact type air purifier side so as to face the space above the floor of the building. It is preferable that an indoor air suction portion that communicates with the air-conditioning apparatus is provided, and an air outlet that communicates with an air supply port that faces the space above the floor of the building is provided on the air conditioning main body side.

  Moreover, it is good for the said air supply opening and the said floor blowing part to be connected via the duct.

  Furthermore, it is preferable that the exhaust port and the inside air suction portion are connected via a duct.

  An underfloor blowing section may be provided on the air conditioning main body side of the air conditioner.

  Further, an air supply port different from the air supply port may be provided facing the above-floor space, and the other air supply port may communicate with the underfloor space.

  An underfloor suction section may be provided on the air-liquid contact type air purifier side of the air conditioner.

  Further, the air conditioner may have a ventilation function.

  Further, the air conditioner is provided with an outside air suction portion that communicates with an outside air inlet provided facing the outer surface of the building on the gas-liquid contact type air purifier side, It is preferable that a blowout unit for floor is provided on the apparatus side so as to communicate with an air supply port provided facing the floor space of the building.

  Furthermore, the outside air inlet and the outside air suction part are connected via a duct, and the air supply port and the floor outlet are also connected via a duct. Good.

  Further, an exhaust port is provided facing the space above the floor, and an inside air suction portion communicating with the exhaust port is provided on the air-liquid contact type air purifier side of the air conditioner, Through the exhaust port, the air in the floor space can be sucked, and the inside air discharge port provided facing the outside surface of the building communicates with the floor space, and through the inside air discharge port, It is preferable that a part of the air in the floor space can be discharged to the outside of the building.

  Furthermore, the exhaust port and the inside air suction portion may be connected via a duct, and the exhaust port and the inside air discharge port may also be connected via a duct.

  Further, the exhaust port and the inside air suction portion are not connected via a duct, and an inside air exhaust port is provided facing the space above the floor, and the inside air exhaust port and the inside air discharge portion are provided. The outlet may be connected via a duct.

  The building of the present invention includes the air conditioning system described above.

  In such an air conditioning system of the present invention, an air conditioner is installed in a building, and the air conditioner includes an air conditioning main body device having a downstream air conditioning function and a dehumidifying function, and an upstream gas-liquid contact type air purifier. And are connected to allow ventilation.

  And the branch drain provided in the air-conditioning main body apparatus and the branch drain provided in the gas-liquid contact type air purifier are made into the structure joined by the common drain.

  With such a configuration, water such as condensed water generated by the air conditioning main unit and contaminated water generated by the gas-liquid contact type air purifier can be efficiently drained together by a common drain.

  In addition, a gas-liquid contact type air purifier replaces the filter, and it is not necessary to replace the filter.

  Here, an air conditioner is installed in the space under the floor of the building, and the air conditioner is connected to the air-liquid contact type air purifier side, and the inside air suction communicating with the exhaust port provided facing the space above the floor of the building If the floor air outlet is connected to the air supply opening that faces the space above the building floor, the space above the floor is occupied by the air conditioner. In addition, it can be used effectively and has a good design appearance.

  Further, when the air supply opening and the floor blowing section are connected via a duct, the air supply opening and the floor blowing section can be communicated with each other with a simple structure.

  Furthermore, when the exhaust port and the inside air suction portion are connected via a duct, the exhaust port and the inside air suction portion can be communicated with each other with a simple structure.

  In addition, when an underfloor blowing section is provided on the air conditioning main unit side of the air conditioner, warm air is blown out from the underfloor blowing section to heat the underfloor space, so that heat is transmitted through the floor, and the above floor space The floor can be heated evenly and evenly, and underfloor heating can be performed to create a comfortable environment for cold head heat.

  Furthermore, an air supply port that is different from the air supply port is provided facing the space above the floor. When the other air supply port communicates with the space under the floor, the air-liquid contact type of the air conditioner is used. Since it is not necessary to separately provide an underfloor suction portion on the air cleaning device side, the portion can be economically implemented.

  In addition, when the under-floor suction part is provided on the air-liquid contact type air purifier side of the air conditioner, the under-floor space where dust easily collects can be cleaned, and a separate air supply port is provided. Therefore, the design appearance of the floor space can be improved.

  Furthermore, when the air conditioner also has a ventilation function, not only air conditioning but also ventilation can be performed.

  In addition, the air conditioner is provided with an outside air suction portion that communicates with an outside air inlet provided facing the outside surface of the building on the gas-liquid contact type air purifier side. When an on-floor outlet is provided that communicates with an air supply port that faces the above-mentioned floor space, not only air conditioning but also ventilation can be performed with a simple structure.

  In addition, when the outside air inlet and the outside air suction part are connected via a duct, and the air inlet and the floor outlet are also connected via a duct, the outside air intake It is possible to communicate between the mouth and the outside air suction unit and between the air supply port and the floor blowing unit with a simple structure.

  In addition, an exhaust port is provided facing the space above the floor, and an air intake section that communicates with the exhaust port is provided on the air-liquid contact type air purifier side of the air conditioner. Air inside the space can be sucked in, and an inside air discharge port provided facing the outside surface of the building communicates with the above-mentioned space above the floor, and through the inside air discharge port, a part of the air in the floor space is built. When it is possible to discharge to the outside, the ventilation route and the air conditioning route become clear, so that the ventilation and the air conditioning can be efficiently managed and controlled simultaneously.

  Furthermore, when the exhaust port and the inside air suction part are connected via a duct, and when the exhaust port and the inside air discharge port are also connected via a duct, the exhaust port and the inside air suction are connected. It is possible to communicate with each other and between the exhaust port and the inside air discharge port with a simple structure.

  In addition, the exhaust port and the inside air suction part are not connected via a duct, and an inside air exhaust port is provided facing the space above the floor, and there is a gap between the inside air exhaust port and the inside air discharge port. When connected via a duct, since the exhaust port and the inside air suction part are not connected via a duct, both the above-floor space and the under-floor space are cleaned with a simple structure. be able to.

  Such a building of the present invention is configured to include the air conditioning system described above.

  Since it is such a structure, it can be set as the building which has the above-mentioned effect.

It is explanatory drawing explaining schematic structure of the building provided with the air conditioning system of Example 1. FIG. It is a schematic diagram explaining the detail of the air conditioner of Example 1. FIG. In the air-conditioning system of Example 1, it is explanatory drawing which shows the state which performed the heating which has immediate effect, cooling, or air purification. In the air conditioning system of Example 1, it is explanatory drawing which shows the state which performed underfloor heating. In the air-conditioning system of Example 1, it is explanatory drawing which shows the state which performed both the heating which has immediate effect, and underfloor heating. It is explanatory drawing explaining schematic structure of the building provided with the air conditioning system of Example 2. FIG. It is explanatory drawing explaining schematic structure of the building provided with the air conditioning system of Example 3. FIG. It is explanatory drawing explaining schematic structure of the building provided with the air conditioning system of Example 4. FIG. It is explanatory drawing explaining schematic structure of the building provided with the air conditioning system of Example 5. FIG. It is explanatory drawing explaining schematic structure of the building provided with the air conditioning system of Example 6. FIG. It is explanatory drawing explaining schematic structure of the building provided with the air conditioning system of Example 7. FIG. It is explanatory drawing explaining the schematic structure of the building provided with the air conditioning system of Example 8. FIG.

  EMBODIMENT OF THE INVENTION Hereinafter, the form for implementing this invention is demonstrated based on Examples 1-8 shown on drawing.

  First, Example 1 will be described.

  FIG. 1 shows a schematic configuration of a building 1 provided with the air conditioning system of the first embodiment.

  First, such a building 1 includes a foundation bottom concrete 1b constructed as foundation insulation, a foundation side wall concrete 1c erected on the side edge, an outer wall portion 1d erected on the foundation side wall concrete 1c, and an outer wall thereof. It is mainly comprised from the ceiling part 1e which block | closes the upper end opening of the part 1d.

  In the space surrounded by the ceiling portion 1e and the outer wall portion 1d, an underfloor space 4 and an upper floor space 5 such as a living room are separated by a floor portion 1a as a floor.

  In consideration of underfloor heating from the underfloor space 4 side in particular, the floor portion 1a allows heat transfer between the underfloor space 4 and the abovefloor space 5, and has no heat insulating material attached thereto. Yes.

  Further, a foundation heat insulating material 10 such as glass wool is affixed to the underfloor space 4 side of the foundation side wall concrete 1c, so that the heat of the warm air in the underfloor space 4 is prevented from leaking as much as possible outdoors.

  In the air conditioning system of the first embodiment, the air conditioner 3 having a ventilation function is installed in the underfloor space 4.

  This air conditioner 3 can ventilate an indoor unit 3A of an air conditioner as an air conditioning main unit having an air conditioning function and a dehumidifying function on the downstream side and an air washer 3B as a gas-liquid contact type air cleaner on the upstream side. It is the structure connected to.

  Here, the indoor unit 3A of the air conditioner as the air conditioning main unit is a heat pump type, and is connected to the outdoor unit 2 installed outside the building 1.

  A heat medium circulation pipe 21 connected to the outdoor unit 2 is connected to the indoor unit 3A of the air conditioner.

  Furthermore, what has a dehumidification function is used for the indoor unit 3A of this air conditioner.

  Further, the indoor unit 3A of the air conditioner has a floor blowing unit 32 and a floor blowing unit 33.

  Furthermore, the indoor unit 3A of the air conditioner has a built-in fan (not shown) capable of blowing air with various strengths from the floor blowing unit 32 and the floor blowing unit 33.

  Further, the on-floor blowing part 32 and the under-floor blowing part 33 are provided with on-off valves 32a and 33a made of an electric damper or the like, respectively.

  Here, the air washer 3B as a gas-liquid contact type air purifier has an outside air suction portion 31A and an inside air suction portion 31B.

  The floor 1a is provided with an exhaust port 6 with a grill and two types of air supply ports 7 and 9.

  Here, the air supply port 7 is connected to the floor blowing unit 32 of the indoor unit 3A of the air conditioner by a duct 82, and the other air supply port 9 communicates directly with the underfloor space 4 without passing through the duct. is doing.

  Further, the outside air suction portion 31A of the air washer 3B is connected to the outside air suction port 11 provided in the foundation side wall concrete 1c by a duct 81.

  Here, a suction fan 16 is provided in the duct 81.

  Furthermore, the inside air suction portion 31 </ b> B of the air washer 3 </ b> B is connected to the exhaust port 6 by a duct 83.

  The duct 83 is connected to the inside air discharge port 14 provided in the foundation side wall concrete 1c by the duct 84.

  Here, a discharge fan 15 is provided in the duct 84.

  In order to make the air quantity for ventilation smaller than the air quantity for air conditioning, ducts 81 and 84 having an inner diameter smaller than the ducts 82 and 83 are used.

  The floor space 5 is provided with a controller 13 for setting a desired operation pattern.

  Further, as shown in FIG. 2, a branch drain 12 </ b> A is provided from the air conditioner 3 </ b> A as the air conditioning main unit so that water such as condensed water generated in the heat exchanger 17 for air conditioning can be drained by air conditioning. ing.

  Further, a branch drain 12B is provided from the air washer 3B as a gas-liquid contact type air purifier so that contaminated water can be drained.

  In the air washer 3B, during operation of the air conditioner 3, water for cleaning air for ventilation or air conditioning is sprinkled from the water spray nozzle 18a at the tip of the water supply pipe 18, and the water passing through the circulation pipe 19 is pumped up by the pump P. However, it is repeated that water is supplied to the water supply pipe 18 again.

  Here, when a certain amount of use time has passed, the water in the air washer 3B that has washed the air for ventilation or air conditioning is considerably contaminated. Therefore, the on-off valve B1 is opened at a predetermined time and drained from the branch drain 12B. At the same time, the on-off valve B2 is opened at a predetermined time, and fresh city water is supplied from the city water supply pipe 20 for replacement.

  The branch drain 12 </ b> A and the branch drain 12 </ b> B are joined at a common drain 12, and can be drained to the outside of the building 1 through the common drain 12.

  Next, the operation pattern of the air conditioning system of Example 1 will be described.

  First, the pattern at the time of heating operation is demonstrated.

  When it is desired to warm the floor space 5 only by heating having immediate effect, the on-off valve 32a of the on-floor blowing part 32 of the air conditioner 3 is opened and the on-off valve 33a of the below-floor blowing part 33 is closed.

  Then, when the air conditioner 3 is operated, as shown in FIG. 3, warm air convects only in the floor space 5 and the floor space 5 is immediately warmed.

  When it is desired to warm the floor space 5 only by underfloor heating, the on-off valve 32a of the on-floor blowing part 32 of the air conditioner 3 is closed, and the on-off valve 33a of the below-floor blowing part 33 is opened.

  When the air conditioner 3 is operated, the underfloor space 4 is immediately warmed as shown in FIG. 4, and the heat is transmitted to the overfloor space 5 mainly through the floor portion 1a, so that the overfloor space 5 is uniform. Warm up evenly.

  When it is desired to warm the floor space 5 with both immediate heating and underfloor heating in a severe cold season in winter, the on-off valve 32a of the floor blowing section 32 of the air conditioner 3 is opened, and the floor blowing section. The open / close valve 33a of 33 is also opened.

  When the air conditioner 3 is operated, as shown in FIG. 5, warm air convected only in the floor space 5 is transmitted to the floor space 5 mainly through the floor portion 1a, and the floor space 5 is uniformly made uneven. With the warming heat, the floor space 5 is immediately and uniformly warmed evenly.

  In any heating operation, the air in the floor space 5 is humidified because the air passes through the air washer 3B.

  That is, normally, only the contaminated water from the air washer 3B is drained from the common drain 12.

  Next, the pattern during the cooling operation will be described.

  When it is desired to cool the floor space 5 by cooling, the on-off valve 32a of the on-floor blowing section 32 of the air conditioner 3 is opened, and the on-off valve 33a of the below-floor blowing section 33 is closed.

  When the air conditioner 3 is operated, as shown in FIG. 3, cold air is convected only in the floor space 5, and the floor space 5 is immediately cooled.

  In this cooling operation, since air passes through the air washer 3B, the air is dehumidified by the dehumidifying function of the indoor unit 3A of the air conditioner.

  That is, normally, the common drain 12 drains the condensed water and dehumidified water from the indoor unit 3A of the air conditioner and the contaminated water from the air washer 3B.

  Next, a pattern during the air cleaning operation will be described.

  When only air purification of the floor space 5 is desired, the on-off valve 32a of the on-floor outlet 32 of the air conditioner 3 is opened, and the on-off valve 33a of the below-floor outlet 33 is closed.

  Then, when the air conditioner 3 is operated, as shown in FIG. 3, air is convected only in the floor space 5, and the air in the floor space 5 is cleaned.

  In this air cleaning operation, since air passes through the air washer 3B, the dehumidification function of the indoor unit 3A of the air conditioner is used to dehumidify the air in the summer when the humidity is high, and the humidity is low. In winter, etc., the dehumidification function may be stopped and humidified.

  That is, normally, from the common drain 12, in the case of high humidity summer, dehumidified water from the indoor unit 3A of the air conditioner and contaminated water from the air washer 3B are drained, and the humidity is low. In winter or the like, only contaminated water from the air washer 3B is drained.

Here, in any operation, the amount of air sucked from the outside air inlet 11 by turning the suction fan 16 is set to about 150 m ³ / h, and the discharge fan 15 is turned to discharge from the inside air outlet 14. The amount of air used was approximately the same, approximately 150 m ³ / h.

The amount of air circulating through the floor space 5, that is, the amount of air sucked from the exhaust port 6 was about 650 m ³ / h.

  In short, heat loss was reduced by making the amount of air for ventilation smaller than the amount of air for air conditioning.

  However, these numerical values are appropriately changed in accordance with the relationship such as the size of the space 5 on the floor.

  Next, the effect of Example 1 is demonstrated.

  In the air conditioning system according to the first embodiment, an air conditioner 3 is installed in a building 1, and the air conditioner 3 is an indoor unit 3A of an air conditioner as an air conditioning main unit having a downstream air conditioning function and a dehumidifying function. And an air washer 3B as a gas-liquid contact type air purifier on the upstream side are connected so as to allow ventilation.

  The branch drain 12A provided in the indoor unit 3A of the air conditioner and the branch drain 12B provided in the air washer 3B are joined by the common drain 12.

  With such a configuration, water such as dew condensation water generated by the indoor unit 3A of the air conditioner and contaminated water generated by the air washer 3B can be efficiently drained together by the common drain 12 to the outside of the building 1. .

  That is, it is not necessary to separately pipe the branch drains 12A and 12B to the outside of the building 1.

  In addition, since the air washer 3B replaces the filter and there is no need to replace the filter, it is substantially maintenance-free.

  Here, the air conditioner 3 is installed in the underfloor space 4 of the building 1, and the air conditioner 3 is provided on the air washer 3 </ b> B side via an exhaust port 6 and a duct 83 provided on the floor 1 a of the building 1. A connected inside air suction portion 31B is provided, and the on-floor blowing portion 32 connected to the indoor unit 3A side of the air conditioner via the air supply port 7 provided on the floor portion 1a of the building 1 and the duct 82. Is provided.

  For this reason, the floor space 5 is not occupied by the air conditioner 3 or the like and can be used effectively, and the design appearance is good.

  The air conditioner 3 also has a ventilation function.

  For this reason, not only air conditioning such as air conditioning and humidity control but also ventilation can be performed.

  Here, the air conditioner 3 is provided with an outside air suction portion 31 </ b> A connected to the outside air inlet 11 provided in the foundation side wall concrete 1 c of the building 1 via a duct 81 on the air washer 3 </ b> B side.

  For this reason, not only air conditioning such as air conditioning and humidity control but also ventilation can be performed with a simple structure.

  Further, the inside air discharge port 14 provided in the foundation side wall concrete 1c of the building 1 communicates with the duct 83 via the duct 84, and a part of the air in the floor space 5 is transferred to the outside of the building 1 through the inside air discharge port 14. Can be discharged.

  For this reason, since the ventilation route and the air conditioning route become clear, air conditioning such as air conditioning and humidity conditioning and ventilation can be efficiently managed and controlled simultaneously.

  Further, the amount of air sucked from the outside air inlet 11 and the amount of air in the floor space 5 discharged from the inside air outlet 14 are made substantially the same, and the amount of air for ventilation passes through the floor space 5. It is made smaller than the amount of air for circulating air conditioning.

  For this reason, since heat loss due to ventilation is small, air conditioning such as air conditioning and humidity conditioning and ventilation can be managed and controlled more efficiently at the same time.

  Further, an underfloor blowing section 33 is provided on the indoor unit 3 </ b> A side of the air conditioner of the air conditioner 3.

  For this reason, warm air is blown out from the underfloor blowing section 33 and the underfloor space 4 is heated, so that heat is transmitted through the floor portion 1a, and the underfloor space 5 is evenly warmed evenly and becomes a comfortable environment of head cold foot heat. Heating can also be performed.

  Further, the air supply port 9 different from the air supply port 7 is provided in the floor portion 1 a, and the other air supply port 9 communicates with the underfloor space 4.

  For this reason, since it is not necessary to separately provide an underfloor suction part on the air washer 3B side of the air conditioner 3, it can be implemented economically.

  On-floor outlet 32 and floor outlet 33 on the indoor unit 3A side of the air conditioner 3 of the air conditioner 3 are provided with on-off valves 32a and 33a, respectively. The blown-out air blown and the blown-out air-conditioned air from the underfloor blowing unit 33 can be controlled independently of each other.

  For this reason, by switching the on-off valves 32a and 33a, it is possible to easily switch between cooling from the blowout unit 32 for the floor, heating having immediate effect from the blowout unit 32 for the floor, and underfloor heating from the blowout unit 33 for the underfloor. Can be controlled.

  Furthermore, the indoor unit 3A of the air conditioner of the air conditioner 3 is a heat pump type, and is connected to the outdoor unit 2 installed outdoors.

  For this reason, since a heat pump is used, it can be excellent in energy saving performance.

  The underfloor space 4 is surrounded by the floor 1a of the building 1, the foundation bottom concrete 1b, and the foundation side wall concrete 1c, and a foundation heat insulating material 10 is attached to the foundation side wall concrete 1c.

  For this reason, underfloor space 4 is made into a heat insulation structure, and underfloor heating with high energy efficiency can be performed without leaking the heat of warm air in underfloor space 4 to the outdoors as much as possible.

  The building 1 according to the first embodiment is configured to include the air conditioning system according to the first embodiment.

  Since it is such a structure, it can be set as the building which show | plays the effect of the air conditioning system of Example 1 mentioned above.

  Next, Example 2 will be described.

  In addition, the description which attaches | subjects the same code | symbol about the description of the same thru | or equivalent part as the content demonstrated in Example 1, and demonstrates.

  FIG. 6 shows a schematic configuration of a building 1A provided with the air conditioning system of the second embodiment.

  In the building 1A of the second embodiment, the floor portion 1a is not provided with another air supply port 9 that does not include a duct, and the underfloor suction portion 31C is provided on the air washer 3B side of the air conditioner 30. Is mainly different from the building 1 of the first embodiment.

  For this reason, it is possible to clean the underfloor space 4 where dust easily collects, and it is not necessary to provide another air supply port 9, so that the design appearance of the above-floor space 5 can be improved.

  Other configurations and functions and effects are substantially the same as those in the first embodiment, and thus description thereof is omitted.

  Next, Example 3 will be described.

  In addition, the description which attaches | subjects the same code | symbol about the description of the same thru | or equivalent part as the content demonstrated in Example 1, and demonstrates.

  FIG. 7 shows a schematic configuration of a building 1B provided with the air conditioning system of the third embodiment.

  In the building 1B of the third embodiment, the floor portion 1a is not provided with another air supply port 9 that does not include a duct, and the underfloor blowing portion 33 is provided on the indoor unit 3A side of the air conditioner of the air conditioner 300. It differs mainly from the building 1 of Example 1 that the on-off valve 32a of the blowing part 32 for floors is not provided.

  For this reason, it is suitable when the underfloor space 5 does not require underfloor heating, and the structure of the air conditioner 300 can be simplified.

  Moreover, since it is not necessary to provide another air supply port 9, the design appearance of the floor space 5 can be improved.

  Other configurations and functions and effects are substantially the same as those in the first embodiment, and thus description thereof is omitted.

  Next, Example 4 will be described.

  In addition, the description which attaches | subjects the same code | symbol about the description of the same thru | or equivalent part as the content demonstrated in Example 1, and demonstrates.

  FIG. 8 shows a schematic configuration of a building 1 </ b> C provided with the air conditioning system of the fourth embodiment.

  In the building 1 </ b> C of the fourth embodiment, the exhaust port 6 provided in the floor portion 1 a and the inside air suction portion 31 </ b> B on the air washer 3 </ b> B side of the air conditioner 301 are not connected via the duct 83.

  The floor portion 1a is provided with a separate outside air exhaust port 60, and the inside air exhaust port 60 and the inside air discharge port 14 are connected via a duct 84 in the first embodiment. Mainly different from building 1.

  For this reason, since the exhaust port 6 and the inside air suction part 31B are not connected via the duct 83, both the floor space 5 and the floor space 4 can be cleaned with a simple structure.

  Other configurations and functions and effects are substantially the same as those in the first embodiment, and thus description thereof is omitted.

  Next, Example 5 will be described.

  In addition, the description which attaches | subjects the same code | symbol about the description of the same thru | or equivalent part as the content demonstrated in Example 1, and demonstrates.

  FIG. 9 shows a schematic configuration of a building 1D provided with the air conditioning system of the fifth embodiment.

  In the building 1D of the fifth embodiment, the outside air inlet port 11, the inside air outlet port 14, the duct 81, the duct 84, and the outside air suction portion 31A on the air washer 3B side of the air conditioner 302 are not provided. The main difference from the building 1 of the first embodiment is that no ventilation function is provided.

  Other configurations and functions and effects are substantially the same as those in the first embodiment, and thus description thereof is omitted.

  Next, Example 6 will be described.

  In addition, the description which attaches | subjects the same code | symbol about the description of the part same or equivalent to the content demonstrated in Example 1, 2, 5 is demonstrated.

  FIG. 10 shows a schematic configuration of a building 1E provided with the air conditioning system of the sixth embodiment.

  In the building 1E of the sixth embodiment, the floor portion 1a is not provided with another air supply port 9 without a duct, and the underfloor suction portion 31C is provided on the air washer 3B side of the air conditioner 303. However, it is mainly different from the building 1D of the fifth embodiment.

  That is, it can be said that the air conditioning system of the sixth embodiment is a type that does not have a ventilation function in the air conditioning system of the second embodiment.

  Other configurations and operational effects are substantially the same as those of the first, second, and fifth embodiments, and thus description thereof is omitted.

  Next, Example 7 will be described.

  In addition, the description which attaches | subjects the same code | symbol about the description of the part same or equivalent to the content demonstrated in Example 1, 3, 5 is demonstrated.

  FIG. 11 shows a schematic configuration of a building 1F provided with the air conditioning system of the seventh embodiment.

  In the building 1F of the seventh embodiment, the floor portion 1a is not provided with another air supply port 9 that does not include a duct, and the underfloor blowing portion 33 is provided on the indoor unit 3A side of the air conditioner of the air conditioner 304. This is mainly different from the building 1D of the fifth embodiment in that the on-off valve 32a of the on-floor outlet 32 is not provided.

  That is, it can be said that the air conditioning system of the seventh embodiment is a type that does not have a ventilation function in the air conditioning system of the third embodiment.

  Other configurations and functions and effects are substantially the same as those of the first, third, and fifth embodiments, and thus description thereof is omitted.

  Next, Example 8 will be described.

  In addition, the description which attaches | subjects the same code | symbol about the description of the same thru | or equivalent part as the content demonstrated in Example 1,4,5 is demonstrated.

  FIG. 12 shows a schematic configuration of a building 1G provided with the air conditioning system of the eighth embodiment.

  In the building 1G of the eighth embodiment, the exhaust port 6 provided in the floor portion 1a and the inside air suction portion 31B on the air washer 3B side of the air conditioner 305 are not connected via the duct 83. Mainly different from the building 1D of the fifth embodiment.

  That is, the air conditioning system of the eighth embodiment can be said to be a type that does not have a ventilation function in the air conditioning system of the fourth embodiment.

  Other configurations and functions and effects are substantially the same as those of the first, fourth, and fifth embodiments, and thus description thereof is omitted.

  As mentioned above, although the form for implementing this invention was explained in full detail based on Examples 1-8 with reference to drawings, specific structure is not restricted to these Examples 1-8, this invention. Design changes that do not depart from the gist of the present invention are included in the present invention.

  For example, in the above-described first to eighth embodiments, the air conditioners 3, 30, 300, 301, 302, 303, 304, and 305 are installed in the underfloor space 4, but the present invention is not limited thereto. It may be installed and implemented.

  In the above-described Examples 1 to 8, the structure of the buildings 1, 1A, 1B, 1C, 1D, 1E, 1F, and 1G is simplified so that the ventilation air conditioning system of the present invention can be easily described. However, the present invention is not limited to this.

  That is, in a building having a plurality of rooms composed of three or more floors, these air conditioning systems may be applied to each room.

  In the first to eighth embodiments described above, only one air conditioner 3, 30, 300, 301, 302, 303, 304, 305 is installed in the underfloor space 4. However, the present invention is not limited to this and is necessary. Depending on the situation, multiple units may be installed and implemented.

  Further, in the above-described Examples 1 to 8, the exhaust port 6, the air supply port 7, the other air supply port 9 and the inside air exhaust port 60 that do not pass through the duct are provided in the floor portion 1a. Instead, these may be provided on the inner wall of the floor space 5 or the like.

1 Building 1A Building 1B Building 1C Building 1D Building 1E Building 1F Building 1G Building 1a Floor (floor)
1b Foundation floor concrete 1c Foundation side wall concrete (foundation of the outer periphery of the building)
1d outer wall 1e ceiling 2 outdoor unit 21 of air conditioner heat medium circulation line 3 air conditioner 30 air conditioner 300 air conditioner 301 air conditioner 302 air conditioner 303 air conditioner 304 air conditioner 305 air conditioner 3A indoor unit of air conditioner (Air conditioning main unit)
3B air washer (gas-liquid contact type air purifier)
31A Outside air suction portion 31B Inside air suction portion 31C Underfloor suction portion 32 Above-floor blowing portion 33 Underfloor blowing portion 32a On-off valve 33a On-off valve 4 Below-floor space 5 Above-floor space 6 Exhaust port 60 Inside air exhaust port 7 Inlet port 81 Duct 82 Duct 83 Duct 84 Duct 9 Another air inlet 10 Basic heat insulating material 11 Outside air inlet 12 Common drain 12A Branch drain 12B Branch drain 13 Controller 14 Inside air outlet 15 Discharge fan 16 Suction fan 17 Air conditioning heat exchanger 18 Water supply Pipe 18a Watering nozzle 19 Circulation pipe 20 City water supply pipe B1 On-off valve B2 On-off valve P Pump

Claims (14)

An air conditioner is installed in the building,
The air conditioner is composed of an air conditioning main unit having a downstream air conditioning function and a dehumidifying function and an upstream gas-liquid contact type air purifier connected so as to allow ventilation.
An air conditioning system in which a branch drain provided in the air conditioning main unit and a branch drain provided in the gas-liquid contact type air purifier are joined together by a common drain. The air conditioner is installed in the floor space of the building,
The air conditioner is provided with an inside air suction portion that communicates with an exhaust port provided facing the floor space of the building on the gas-liquid contact type air purifier side. The air-conditioning system according to claim 1, further comprising a floor blowing unit that communicates with an air supply port that faces the space above the floor of the building.   The air conditioning system according to claim 2, wherein the air supply port and the floor outlet are connected via a duct.   The air conditioning system according to claim 2 or 3, wherein the exhaust port and the inside air suction portion are connected via a duct.   The air conditioning system according to any one of claims 2 to 4, wherein an underfloor blowing section is provided on the air conditioning main body side of the air conditioning apparatus.   The air supply port different from the air supply port is provided facing the space above the floor, and the other air supply port communicates with the underfloor space. The air conditioning system described.   The air conditioning system according to claim 5 or 6, wherein an underfloor suction portion is provided on the air-liquid contact type air purifier side of the air conditioner.   The air conditioning system according to any one of claims 1 to 7, wherein the air conditioner also has a ventilation function.   The air conditioner is provided with an outside air suction portion that communicates with an outside air inlet provided facing the outer surface of the building on the gas-liquid contact type air purifier side, and the air conditioner main body side The air conditioning system according to claim 8, further comprising a floor blowing unit that communicates with an air supply port that faces the floor space of the building.   The outside air suction port and the outside air suction portion are connected via a duct, and the air supply port and the floor outlet are also connected via a duct. The air conditioning system according to claim 9.   An exhaust port is provided facing the space above the floor, and an inside air suction portion communicating with the exhaust port is provided on the gas-liquid contact type air purifier side of the air conditioner. The inside air discharge port provided to face the outer surface of the building is in communication with the above floor space, and through the inside air discharge port, the above floor space The air conditioning system according to claim 9 or 10, wherein a part of the air can be discharged to the outside of the building.   The exhaust port and the inside air suction part are connected via a duct, and the exhaust port and the inside air discharge port are also connected via a duct. Item 12. The air conditioning system according to Item 11.   Between the exhaust port and the inside air suction portion, there is no connection through a duct, and an inside air exhaust port is provided facing the space above the floor, the inside air exhaust port and the inside air discharge port, The air conditioning system according to claim 11, wherein the two are connected via a duct.   A building comprising the air conditioning system according to any one of claims 1 to 13.