JP2020134015A - Air conditioning ventilation system - Google Patents

Abstract

To provide an air conditioning ventilation system which can suppress generation of dew condensation in a ceiling space.SOLUTION: A ventilation system for a space where an indoor space 2 and a ceiling space 3 are partitioned via a ceiling part includes: an air supply duct 11 which is installed in the ceiling space 3, and for supplying the outside air taken in from the outside space to the indoor space 2; a first air conditioner 12 in which a refrigerant pipe 12a is extended in the ceiling space 3, and which supplies air conditioning air with respect to the indoor space 2; a first exhaust fan 13 for exhausting the indoor air in the indoor space 2 into the ceiling space 3; and a second exhaust fan 14 for exhausting the ceiling space air in the ceiling space 3 to the outside space. The first exhaust fan 13 is installed at an end part of an exhaust duct 17. The indoor space 2 is partitioned into a common part space 5 and each individual room space 6, and the common part space 5 and each individual room space 6 are connected by a connection duct 16 installed in a state being wound by one round.SELECTED DRAWING: Figure 2

Description

The present invention relates to an air conditioning ventilation system that ventilates an indoor space and an attic space.

The air-conditioning ventilation system of a store is equipped with, for example, a ceiling-embedded air conditioner, and the air conditioner is configured to take in indoor air from a suction port facing the indoor space and blow out air-conditioning air from an air outlet around the suction port. .. Further, it is provided with an air supply fan and an exhaust fan, and is configured to take in outside air into the room by the air supply fan and exhaust the indoor air to the outside by the exhaust fan. In the attic space partitioned from the indoor space by the ceiling, a refrigerant pipe that connects the air conditioner and the outdoor unit installed outdoors extends. In this type of air-conditioning ventilation system, it is known that dew condensation occurs on the refrigerant pipe during cooling, and the dew condensation drips from the refrigerant pipe to contaminate the ceiling portion. Therefore, in order to suppress such dew condensation, a ventilation port is provided in the attic space, and the attic space is ventilated by a fan.

Further, for example, in Patent Document 1, an air conditioner is installed in the ceiling space, air conditioning air that exchanges heat with the outside air is supplied to the indoor space through a supply duct, and the air in the indoor space is returned to the ceiling space. The part is supplied to the air conditioner and exhausted to the external space with an exhaust fan. Before starting normal cooling operation, air conditioning air is supplied to the indoor space without passing through the supply duct, and the air in the indoor space is returned to the attic space to cool the temperature around the supply duct in the attic space. I am doing it. As a result, the occurrence of dew condensation in the supply duct is suppressed during the normal cooling operation in which the subsequent air conditioning air is supplied to the supply duct.

Japanese Patent No. 29847737

As described above, in the air-conditioning ventilation system, it is desired to further improve the ventilation efficiency of the attic space in order to further reduce the occurrence of dew condensation in the attic space.

The air conditioning / ventilation system for solving the above problems is an air supply duct installed in the ceiling space in the air conditioning / ventilation system in which the indoor space and the ceiling space are partitioned via the ceiling portion. The air supply duct that supplies the outside air taken in from the external space to the indoor space, and the air conditioner in which the refrigerant pipe is extended in the ceiling space, and the air conditioning that supplies the air conditioning air to the indoor space. The machine, a first exhaust fan that exhausts the indoor air of the indoor space to the ceiling space, and a second exhaust fan that exhausts the ceiling air of the ceiling space to the external space are provided.

According to the above configuration, the indoor air in the indoor space is exhausted to the attic space by operating the first exhaust fan, and the attic air in the attic space is exhausted from the second exhaust fan to the external space. Will be done. As a result, the ventilation efficiency in the attic space is enhanced. Therefore, the temperature and humidity environments of the indoor space and the attic space are close to each other, and dew condensation can be less likely to occur in the refrigerant pipe of the air conditioner.

In the air conditioning ventilation system, the exhaust duct in which the first exhaust fan is installed is provided.
The exhaust duct is a sound deadening duct and is installed in the ceiling space, one end is connected to a suction port facing the indoor space, and the first exhaust fan is installed in the other end. You may do so.

According to the above configuration, the first exhaust fan is provided at the end of the exhaust duct composed of the muffling duct. Therefore, the operating noise of the first exhaust fan is less likely to be transmitted to the indoor space. As a result, a fan having higher ventilation performance can be used for the first exhaust fan, and as a result, the ventilation efficiency of the space behind the ceiling is also increased, and dew condensation on the refrigerant pipe can be less likely to occur.

In the air-conditioning ventilation system, the indoor space is divided into a first space and a plurality of second spaces narrower than the first space by a wall portion, and the first space and each of the second spaces Is communicated by a connecting duct, the air supply duct supplies the outside air to the first space, the air conditioner supplies the air conditioning air to the first space, and the first space. The 1 exhaust fan may exhaust the indoor air of each of the second spaces to the ceiling space.

According to the above configuration, even when the indoor space is divided into the first space and the second space, the indoor air of the first space air-conditioned by the air conditioner can be supplied to the second space through the connection duct 16. .. Therefore, the temperature difference between the first space and the second space can be reduced. Then, the indoor air in the second space can be exhausted to the space behind the ceiling.

In the air-conditioning ventilation system, the connection duct may be installed in a state of being wound one or more times in the space behind the ceiling. According to the above configuration, since the connection duct is installed in a wound state, it becomes difficult for sound to be transmitted between the first space and the second space.

In the air-conditioning ventilation system, the air conditioner is a first air conditioner that supplies the first air-conditioning air as the air-conditioning air to the first space, and the air-conditioning ventilation system further includes a second air conditioner. The second air conditioner may supply the second air conditioner having a temperature different from that of the first air conditioner to the plurality of second spaces. According to the above configuration, the temperature of the second space can be adjusted by the second air conditioning air even though the temperature difference between the first space and the second space is small.

In the air-conditioning ventilation system, each of the second spaces may be provided with a blow-out grill having an adjustable air volume of the second air-conditioning air on a wall surface between the floor surface and the ceiling portion. According to the above configuration, the air volume of the second air conditioning air can be easily adjusted at the air outlet. Thereby, the temperature of the second space can be adjusted.

According to the present invention, it is possible to suppress the occurrence of dew condensation in the space behind the ceiling.

A plan view schematically showing the structure of a commercial store. A cross-sectional view schematically showing the configuration of an air conditioning ventilation system. The figure which shows the structure which exhausts the room air from each private room space to the attic space.

Hereinafter, a commercial store to which the air conditioning ventilation system to which the present invention is applied will be described.
As shown in FIGS. 1 and 2, the commercial store 1 to which the air conditioning ventilation system is applied is a store that provides a private room to an individual customer. In the commercial store 1, for example, the space on the floor of the building is divided into an indoor space 2 and an attic space 3 by a ceiling portion 4. The ceiling portion 4 is composed of a suspended ceiling structure or the like. Air conditioning and ventilation equipment are installed in the attic space 3. The indoor space 2 includes a common space 5 as a first space such as a reception, a corridor, and a dining space, and a private room space 6 as a second space that provides a private space for individuals or a small number of people. There is. A plurality of private room spaces 6 are provided facing the common area space 5, and each private room space 6 is a soundproof space narrower than the common area space 5.

Private space 6, for example 1.9m ² ~5m ² about and person for is a narrow space of about 1 person to 4 people. Alternatively, the private room space 6 is partitioned by the adjacent common area space 5 and the private room space 6 and the wall portion 7 having an excellent soundproofing function, and the room can be entered and exited through the door 8 facing the common area space 5. In the private room space 6, home appliances such as personal computers (PCs), TV monitors, desks, chairs, and sofas and furniture are arranged, and customers who enter the room can watch homepages, TV programs, movies, and the like. Since the private room space 6 is configured as a soundproof room, sound is prevented from leaking to the common area space 5 and the adjacent private room space 6.

The air conditioning ventilation system 10 in the commercial store 1 as described above includes an air supply duct 11, a first air conditioner 12, a first exhaust fan 13, and a second exhaust fan 14. The air supply duct 11 is installed in the attic space 3 and connects the outdoor external space 9 and the common area space 5. Specifically, the air supply duct 11 connects the intake port 11a provided on the outer wall of the commercial store 1 and the air outlet 11b of the ceiling portion 4 of the common area space 5. The air supply duct 11 is an aluminum flexible duct as an example. A muffling duct may be used for the air supply duct 11 in order to prevent noise from the external space 9 from entering the indoor space 2. Further, a vent cap or the like is installed at the intake port 11a. Further, an air supply fan 15 is installed in the intake port 11a, and the outside air is sucked into the air supply duct 11. The air supply fan 15 is, for example, a duct ventilation fan. From the air outlet 11b, the outside air is supplied to the common space 5. For example, in the summer, hot and humid outside air is supplied from the external space 9 to the indoor space 2. Further, in winter, the outside air having a low temperature and low humidity is supplied from the external space 9 to the indoor space 2. Therefore, by providing the air outlet 11b in a place where there is little traffic in the common space 5, it is possible to make it difficult for a person in the room to understand the blown air.

The first air conditioner 12 is, for example, a ceiling-embedded air conditioner, and is installed in the ceiling portion 4 of the common portion space 5. The first air conditioner 12 is provided with a suction port and an air outlet so as to face the indoor space 2. The first air conditioner 12 sucks the indoor air in the common area space 5 from the suction port and blows the conditioned air from the air outlet into the common area space 5. The first air conditioner 12 blows out the first air conditioning air having a set temperature (first temperature). The first air conditioner 12 is mainly used for adjusting the air conditioning of the common area space 5. A first refrigerant pipe 12a extends from the first air conditioner 12 and extends to the attic space 3 so as to connect to an outdoor unit installed outdoors.

The common area space 5 and each private room space 6 are connected by a connection duct 16 in the vicinity of the wall portion 7 that separates the common area space 5 and each private room space 6. A suction port 16a is installed in the vicinity of the wall portion 7 of the common space 5, an air outlet 16b is installed in the vicinity of the wall portion 7 of each private room space 6, and the connection duct 16 is connected to the suction port 16a. It is connected to the outlet 16b. Air supply / exhaust grills are installed at the suction port 16a and the air outlet 16b. As an example, the connection duct 16 is a sound deadening duct and is made of an aluminum flexible duct. Then, for example, a sound deadening material such as glass wool is provided on the inner surface. Further, the connection duct 16 is installed in the ceiling space 3 in a state of being wound one or more times (here, one winding). As a result, the inner surface of the connection duct 16 becomes a curved surface in the axial direction, and the sound is repeatedly reflected, so that the sound attenuation effect is enhanced. Therefore, the sound of the common room space 5 is less likely to be transmitted to the private room space 6, and the sound of the private room space 6 is less likely to leak to the common room space 5.

As shown in FIG. 3, the first exhaust fan 13 exhausts the indoor air in the private room space 6 to the attic space 3. That is, the indoor air in the common area space 5 is supplied to the private room space 6 through the connection duct 16, and further exhausted to the ceiling space 3 by the first exhaust fan 13. A suction port 17a is provided in the ceiling portion 4 of the private room space 6, and an air supply / exhaust grill is installed in the suction port 17a. One end of an exhaust duct 17 installed in the attic space 3 is connected to the suction port 17a.

The exhaust duct 17 is a sound deadening duct, for example, an aluminum flexible duct. The longer the exhaust duct 17, the higher the muffling effect. The length of the exhaust duct 17 is set according to the required muffling effect and the space of the ceiling space 3, and here, the exhaust duct 17 has a length of about 1 m. .. The other end of the exhaust duct 17 is an open end, and the first exhaust fan 13 is installed here. The first exhaust fan 13 is, for example, a sirocco fan. The first exhaust fan 13 is fixed to the ceiling portion 4, pillars, beams, etc. via fixing means. The exhaust duct 17 makes it difficult for the sound of the private room space 6 to leak to the attic space 3, and makes it difficult for the sound of the first exhaust fan 13 to be transmitted to the private room space 6. The attic space 3 functions as a chamber in which the indoor air from each private room space 6 is exhausted. The exhaust direction of the first exhaust fan 13 can be appropriately adjusted by bending the exhaust duct 17. For example, the exhaust direction of the first exhaust fan 13 may be directed to the first refrigerant pipe 12a of the first air conditioner 12 and the second refrigerant pipe 21a of the second air conditioner 21, or may be directed in a random direction. Good. Further, it may be suitable for the air conditioning duct 22.

The second exhaust fan 14 exhausts the attic air of the attic space 3 to the external space 9. An exhaust port 14a is provided on the outer wall of the commercial store 1, and a vent cap or the like is installed on the exhaust port 14a. A second exhaust fan 14 is installed in the exhaust port 14a to exhaust the attic air to the external space 9. The second exhaust fan 14 is, for example, a duct ventilation fan. The second exhaust fan 14 may be provided only at one place in the attic space 3, or a plurality of the second exhaust fans 14 may be provided in the attic space 3 in a distributed manner. The position and number of the second exhaust fans 14 are determined by the size of the attic space 3, the equipment behind the ceiling, the arrangement of columns and beams, and the like.

Further, the air conditioning ventilation system 10 includes a second air conditioner 21 and an air conditioning duct 22. The second air conditioner 21 is a ceiling-embedded type, in which the suction port faces the interior space 2, the air outlet faces the ceiling space 3, and one end of the air conditioning duct 22 is connected. The air conditioning duct 22 is installed in the attic space 3, and the other end thereof is connected to the air outlets 22a of the plurality of private room spaces 6. The air conditioning duct 22 is an aluminum flexible duct as an example. Further, it may be a muffling duct. As described above, the second air conditioner 21 is a second air conditioner that mainly supplies the second air conditioning air to the plurality of private room spaces 6.

One second air conditioner 21 is assigned to a plurality of private room spaces 6. Therefore, the air conditioning duct 22 connected to one air conditioner 21 is branched and is connected to the air outlet 22a provided in each of the plurality of private room spaces 6 in charge of the air conditioner 21. The second refrigerant pipe 21a also extends from the second air conditioner 21 and extends to the attic space 3 so as to connect to the outdoor unit installed outdoors. The second air conditioner 21 blows out a second air conditioner air having a second temperature different from that of the first air conditioner air of the first air conditioner 12. For example, during cooling, the indoor air in the common area space 5 is sucked in, and the second air conditioning air having a set temperature (second temperature) lower than the set temperature (first temperature) of the first air conditioner 12 is blown out. Further, at the time of heating, a second air conditioning air having a set temperature (second temperature) higher than the set temperature (first temperature) of the first air conditioner 12 is blown out.

The air outlet 22a is not provided on the ceiling 4 of each private room space 6, but is a wall surface 22b between the floor and the ceiling 4, and is provided at a height within reach of the customer. .. An outlet grill 22c is installed at the outlet 22a. The blowout grill 22c has an air volume adjusting function. For example, the outlet grill 22c includes a shutter that can manually adjust the opening amount of the outlet 22a. The customer in the private room space 6 adjusts the opening amount of the air outlet 22a by opening and closing the shutter. As a result, the air volume of the second air-conditioning air at the second temperature blown out from the outlet 22a is adjusted, and the room temperature of the private room space 6 is adjusted.

Further, in the air conditioning ventilation system 10, a suction port 23a is provided in the ceiling portion 4 of the common area space 5, and an air supply / exhaust grill is installed in the suction port 23a. One end of the exhaust duct 23 installed in the attic space 3 is connected to the suction port 23a. The exhaust duct 23 is an aluminum flexible duct as an example. Further, the exhaust duct 23 may be a muffling duct. The other end of the exhaust duct 23 is connected to an exhaust port 23b provided on the outer wall of the commercial store 1. A vent cap or the like is installed at the exhaust port 23b. A third exhaust fan 24 is installed in the exhaust port 23b to exhaust the attic air to the external space 9.

The third exhaust fan 24 is, for example, a duct ventilation fan. The suction port 23a may be provided as a common area space 5 in a reception, a corridor, a dining space, a toilet, a smoking area, or the like. Toilet, smoking area, etc. are exhausted to the external space 9 through the exhaust duct 23 so as not to be mixed with the attic air of the attic space 3 so that odors and the like do not leak to the common space 5 and the private room space 6. I have to. When the suction port 23a and the exhaust port 23b are separated from each other, a duct ventilation fan may be installed at the suction port 23a to facilitate the suction of indoor air.

Next, the operation of the air-conditioning ventilation system 10 configured as described above will be described by taking as an example during cooling.
The air supply fan 15 takes in outside air from the outside space 9 and supplies the outside air to the common area space 5 through the air supply duct 11 (see arrow A). In the common area space 5, the first air conditioner 12 sucks the indoor air from the suction port (see arrow B1) and blows out the first air conditioning air at the first temperature from the outlet (see arrow C). Since the first exhaust fan 13 in each private room space 6 is operating, the indoor air at the first temperature in the common area space 5 is supplied to each private room space 6 through the connection duct 16 (see arrow D). The connecting duct 16 serves as a passage for communicating the common area space 5 and the private room space 6, but since it is installed in a wound state, it becomes difficult for the sound of the common area space 5 to be transmitted to the private room space 6, and also. The sound of the private room space 6 is less likely to leak into the common space 5.

In each private room space 6, second air conditioning air having a second temperature lower than the first temperature is supplied from the air outlet 22a from the second air conditioner 21 (see arrow B2) that has sucked in the indoor air of the common area space 5 (arrow). See E). The air volume of the second air-conditioned air at the second temperature is adjusted by the blowing grill 22c, and the room temperature of the private room space 6 is adjusted. The room air of the first temperature from the common area space 5 is supplied to each private room space 6. Therefore, the temperature difference between the common area space 5 and each private room space 6 is small. The indoor air in each private room space 6 is exhausted from the suction port 17a to the attic space 3 through the exhaust duct 17 by operating the first exhaust fan 13 (see arrow F). In the attic space 3, the indoor air of each private room space 6 is exhausted from everywhere.

Then, the attic air in the attic space 3 is exhausted from the second exhaust fan 14 to the external space 9 (see arrow G). As a result, the temperature difference between the attic space 3 and the common area space 5 and the private room space 6 becomes small, and in the case of cooling, the dehumidified indoor air of the private room space 6 is supplied to the attic space 3. To. Therefore, it is possible to suppress the occurrence of dew condensation in the first refrigerant pipe 12a of the first air conditioner 12 and the second refrigerant pipe 21a of the second air conditioner 21.

Further, indoor air such as a toilet or a smoking area is exhausted to the external space 9 through the exhaust duct 23 (see arrow H) so as not to be mixed with the attic air in the attic space 3. As a result, odors and the like are prevented from leaking into the common area space 5 and the private room space 6.

The air conditioning ventilation system 10 as described above can obtain the effects listed as follows.
(1) The indoor air in the private room space 6 is exhausted to the ceiling space 3 by operating the first exhaust fan 13. Then, the attic air in the attic space 3 is exhausted from the second exhaust fan 14 to the external space 9. As a result, the ventilation efficiency of the attic space 3 is enhanced, and further, the temperature and humidity environments of the attic space 3 and the common area space 5 and the private room space 6 constituting the indoor space 2 are brought closer to each other, so that the first air conditioner is first air-conditioned. It is possible to suppress the occurrence of dew condensation in the first refrigerant pipe 12a of the machine 12 and the second refrigerant pipe 21a of the second air conditioner 21.

(2) The first exhaust fan 13 for exhausting the indoor air in the private room space 6 is provided at the end of the exhaust duct 17 which is a sound deadening duct. Therefore, the operating sound of the first exhaust fan 13 is less likely to be transmitted to the private room space 6. As a result, a fan having higher ventilation performance can be used for the first exhaust fan 13. As a result, the ventilation efficiency of the ceiling space 3 is also increased, and dew condensation on the first refrigerant pipe 12a and the second refrigerant pipe 21a can be less likely to occur.

(3) Since a fan having high ventilation performance can be used by the first exhaust fan 13, the ventilation efficiency of the private room space 6 can be improved. As an example, the ventilation frequency of the private room space 6 is generally about 0.5 to 1.2 times / hour, but since a fan with high ventilation performance can be used by the first exhaust fan 13, 10 times / hour. Can be increased to a degree.

(4) The indoor air in the common area space 5 is supplied to the private room space 6 through the connecting duct 16. Therefore, the temperature difference between the common area space 5 and the private room space 6 can be reduced.
(5) Since the connecting duct 16 that connects the common area space 5 and the private room space 6 is installed in a wound state, it is difficult for the sound of the common area space 5 to be transmitted to the private room space 6, and the private room space 6 is also connected. The sound of 6 is less likely to leak into the common space 5.

(6) The room temperature of the private room space 6 can be adjusted by adjusting the air volume of the second air conditioning air having a second temperature from the second air conditioner 21 of a system different from that of the first air conditioner 12 with the blowing grill 22c. For air conditioning in each private room space 6, an air conditioner can be installed in each private room space 6 and the customer can adjust the temperature of the private room space 6. In this case, since the private room space 6 is a narrow space, the performance of the air conditioner installed in each private room space 6 may be excessive with respect to the size of the private room space 6. For example, in the case of cooling, the cooling is too effective. Therefore, here, the air-conditioned air of the second temperature from the second air conditioner 21 is supplied to the plurality of private room spaces 6, and the air volume is adjusted by the blowout grill 22c in the private room spaces 6, respectively. The room temperature of the private room space 6 is easily adjusted.

(7) The blowout grill 22c is provided on the wall surface 22b. Therefore, the customer can easily adjust the air volume of the blowout grill 22c. When the blow-out grill 22c is provided at a height within reach of the customer, the air volume adjusting work becomes easier.

The air-conditioning ventilation system 10 as described above can be further modified as appropriate and implemented as follows.
-The blow-out grill 22c may be provided on the wall surface 22b or in a high place or a ceiling portion that is difficult for customers to reach. In such a case, the shutter for adjusting the air volume may be opened and closed manually, but it is preferable that the shutter can be opened and closed electrically and remotely controlled by a remote control device.

-The second air conditioner 21 may be omitted. In this case, the air conditioning duct 22 is also omitted, and the number of obstacles in the attic space 3 is reduced. Therefore, in the attic space 3, the attic air easily flows. Further, when the second air conditioner 21 is omitted, it is possible to install one air conditioner in each of the private room spaces 6. For example, when the private room space 6 has an area of about 6 tatami mats or more, an air conditioner may be installed in each room.

-If the performance of the sound deadening duct is sufficient, the connection duct 16 may be installed in the attic space 3 without being wound. Further, the connection duct 16 does not have to use a muffling duct. Further, the connection duct 16 does not have to be composed of a flexible duct. Further, the connection duct 16 does not have to be installed in the attic space 3.

-As for the configuration of the commercial store 1, if it is divided into an indoor space 2 and an attic space 3, it does not have to be divided into a common area space 5 and a private room space 6. In this case, the second air conditioner 21 and the air conditioning duct 22 are omitted, the number of obstacles in the attic space 3 is reduced, and the attic air easily flows.

The first exhaust fan 13 may be provided not in the exhaust duct 17 but in the suction port 17a of the ceiling portion 4. When the private room space 6 is used as a soundproof room or the like, it is preferable to provide the first exhaust fan 13 in the exhaust duct 17, but in the case of a normal space other than the soundproof room, the first exhaust fan 13 is provided on the ceiling portion 4. It may be provided in the suction port 17a. In this case, by omitting the exhaust duct 17, obstacles in the attic space 3 are reduced, and the attic air easily flows. Further, the exhaust duct 17 does not have to be composed of a flexible duct.

-The first exhaust fan 13 may be a propeller fan, for example, other than the sirocco fan. Further, the types of the air supply fan 15 and the second exhaust fan 14 are not particularly limited, and may be a sirocco fan, a propeller fan, or the like.

-When the private room space 6 is a smoking room, the ventilation of the room may be performed by using the exhaust duct 23 and the third exhaust fan 24 instead of using the first exhaust fan 13. It is possible to prevent the sidestream smoke of cigarettes from mixing with the attic air.

-The common area space 5 may also be ventilated by using the first exhaust fan 13. Since there is little need for soundproofing in the common area space 5, the first exhaust fan 13 may be provided in the suction port 17a of the ceiling portion 4. Further, the first exhaust fan 13 may be provided in the exhaust duct 17 as in the case of the private room space 6.

-The relationship between the common area space 5 as the first space and the private room space 6 as the second space is not limited to the above example. For example, if the second space is narrower than the first space, the private room space 6 does not have to be a private room.

-Although it depends on the size, a plurality of air conditioners are often installed in the commercial store 1. For example, if the common area space 5 is large, the number of the first air conditioners 12 will increase, and if the private room space 6 is large, the number of the second air conditioners 21 will increase. The outdoor unit of the first air conditioner 12 and the outdoor unit of the second air conditioner 21 are not installed in various places outdoors in a distributed manner, but a plurality of units are often installed together. Then, in the ceiling space 3, a plurality of first refrigerant pipes 12a and second refrigerant pipes 21a gather near the outdoor unit, and a large amount of dew condensation is likely to occur in such a place. Therefore, by bending the exhaust duct 17 and directing the exhaust direction of the first exhaust fan 13 to a place where the refrigerant pipes are gathered, dew condensation can be less likely to occur even in such a place.

-During cooling, dew condensation may easily occur even in the air conditioning duct 22. Therefore, not only the first refrigerant pipe 12a and the second refrigerant pipe 21a but also the air conditioning duct 22 may be exposed to the exhaust gas from the first exhaust fan 13 to suppress the occurrence of dew condensation.

-The first air conditioner 12 is not limited to the ceiling-embedded type, and may be installed along the wall of the common area space 5. Similarly, the second air conditioner 21 may be installed along the wall of the common area space 5. Even in such a case, the refrigerant pipes 12a and 21a extending from the air conditioners 12 and 21 extend to the ceiling space 3 and are connected to the outdoor unit installed outdoors.

1 ... Commercial store, 2 ... Indoor space, 3 ... Under-ceiling space, 4 ... Ceiling, 5 ... Common space, 6 ... Private room space, 7 ... Wall, 8 ... Door, 9 ... External space, 10 ... Air conditioning and ventilation System, 11 ... air supply duct, 11a ... intake port, 11b ... outlet, 12 ... first air conditioner, 12a ... first refrigerant pipe, 13 ... first exhaust fan, 14 ... second exhaust fan, 14a ... exhaust port , 15 ... air supply fan, 16 ... connection duct, 16a ... suction port, 16b ... outlet, 17 ... exhaust duct, 17a ... suction port, 21 ... second air conditioner, 21a ... second refrigerant pipe, 22 ... air conditioning duct , 22a ... outlet, 22b ... wall surface, 22c ... outlet grill, 23 ... exhaust duct, 23a ... suction port, 23b ... exhaust port, 24 ... third exhaust fan.

Claims (6)

In an air-conditioning ventilation system in a space where the indoor space and the attic space are partitioned via the ceiling.
An air supply duct installed in the attic space, which supplies the outside air taken in from the external space to the indoor space.
An air conditioner in which a refrigerant pipe extends in the attic space, and the air conditioner that supplies conditioned air to the indoor space.
A first exhaust fan that exhausts the indoor air in the indoor space to the attic space,
An air-conditioning ventilation system including a second exhaust fan that exhausts the attic air in the attic space to the external space. Equipped with an exhaust duct in which the first exhaust fan is installed
The exhaust duct is a sound deadening duct and is installed in the ceiling space, one end thereof is connected to a suction port facing the indoor space, and the first exhaust fan is installed in the other end. The air-conditioning ventilation system according to claim 1. The interior space is divided into a first space and a plurality of second spaces narrower than the first space by a wall portion.
The first space and each of the second spaces are communicated with each other by a connecting duct.
The air supply duct supplies the outside air to the first space.
The air conditioner supplies the air conditioning air to the first space.
The air-conditioning ventilation system according to claim 1 or 2, wherein the first exhaust fan exhausts indoor air in each of the second spaces to the attic space. The air-conditioning ventilation system according to claim 3, wherein the connection duct is installed in a state of being wound one or more times in the space behind the ceiling. The air conditioner is a first air conditioner that supplies the first air conditioning air as the air conditioning air to the first space.
The air conditioning ventilation system further includes a second air conditioner.
The air-conditioning ventilation system according to claim 3 or 4, wherein the second air conditioner supplies a plurality of second air-conditioning air having a temperature different from that of the first air-conditioning air to the second space. The air-conditioning ventilation system according to claim 5, wherein each of the second spaces is provided with a blow-out grill having an adjustable air volume of the second air-conditioning air on a wall surface between the floor surface and the ceiling portion.